DE19901341A1 - Air control and / or air control device - Google Patents

Abstract

The air control for an air consuming printer has a compressed air source to produce an overpressure air flow to an ejector of smaller inlet and larger outlet size during a cycle of the printing machine. There is a timed switchable closure valve between the air pressure source and the ejector. The valve controls the radial connection (7) of the ejector (3) with the ambient air and the outlet (5) of the ejector to a compressed air consumer.

Description

The invention relates to an air control and / or air regulation equipment for air consumers on sheet-processing machines, ins special sheet feeders, with an air pressure source, of which an excess pressurized airflow can be generated and processed in time with the bends machine an inlet small cross-section of an ejector can be fed and through the ejector to an outlet of large cross section of the ejector flows, being between the inlet and outlet of the ejector radial connection opens into the ejector and the outlet or the radial Connection of the ejector is connected to the air consumer.

In such air control and / or air control devices, it is be knows the radial connection of the ejector as a vacuum consumer To connect the suction of a sheet feeder. Because of the radial on conclusion of the ejector when he flows through it with a vacuum vacuum is applied to the vacuum.

The largely uniform performance of the pump leads to the same length Times until the desired vacuum is built up on the suction cups, what under different operating conditions to different react  times of the air consumers and thus a disrupted operating situation run leads.

The object of the invention is therefore an air control and / or air rain lungseinrichtung of the type mentioned to create the easy on is built and fast, depending on the respective operating conditions Air consumers fit response.

This object is achieved in that between the Air pressure source and the ejector a switchable check valve arranged is that alternately up and down in time with the sheet processing machine can be activated, the time or times of opening and closing Activation within one work cycle depending on product ons data is adjustable.

In another embodiment, the object is achieved in that between between the air pressure source and the ejector an adjustable throttle element element is arranged through which the flow through the throttle element Volume flow is adjustable depending on production data. In order to become the operating procedures of the air pressure consumers in a simple manner optimally matched to the respective operating conditions.  

The check valve and / or the throttle element can be manually in Ab dependency of the production data or automatically depending on production data recorded by sensors can be adjustable.

The production data can process the machine speed of the sheets processing machine and / or the type and quality of and / or the form mat to be processed. Are z. B. the sheets to be processed of relatively high weight or of greater air permeability a higher suction power is required for a vacuum cleaner than the air consumer Lich, in order to also securely capture the sheet to be captured. To do that Capture at the right time and do not arrive late to let, the switchable valve compared to normal operation prematurely opened or the flow resistance of the throttle element be reduced so that the required suction power at the optimal time point is fully built.

If the check valve is activated during a by a Um rotation of the drive of the sheet processing machine defined ar beitstaktes at higher machine speed to an earlier angular position tion of the drive than at a lower machine speed, so takes place against over a normal operation leading an opening of the check valve so that a larger angular range of the drive and therefore a longer time for  Is available during which the suction pressure can be built up. This means that the full suction power is available at the optimal time.

To be able to generate an increased vacuum, several Ejectors with a passage cross tapering in the direction of flow cut to be arranged one behind the other, their individual radial to conclusions merged into a common radial connection are.

One embodiment of the invention is that the radial to closure of the ejector leads to a vacuum consumer and the outlet of the ejector bil an outlet of the air flow leading to the atmosphere det.

So that there are no disturbing noises at the outlet of the ejector, can the outlet ver through a silencer with the atmosphere be bound.

If the connection leads to a plurality of vacuum consumers, then only a small effort to supply several vacuum consumption required.  

Another air control and / or air control device is that the air flow of the air pressure source can be fed to the inlets of a plurality of ejectors.

The vacuum consumer can be a sucker, especially a lifting sow ger or drag vacuum.

Is a controllable between ejector and vacuum consumer Quick exhaust valve arranged through which preferably a Ver bond can be opened from the air pressure source to the vacuum consumer, so a quick vacuum reduction and thus a quick release of the sheets from a suction cup.

Another embodiment of the invention is that the ra diale connection of the ejector is connected to the outside air and the Outlet of the ejector leads to a blown air consumer. With this out the vacuum at the narrowest point of the ejector exploited, the outside air via the junction there is sucked in, so that at the outlet of the ejector opposite to that of air flow supplied to the pressure pump increased air volume electricity is available that the blown air consumer with low Pressure and lower flow rate is supplied. In order to  the air pressure source can be designed with a smaller capacity. In a simple manner, the outlet of the ejector can be a plurality of Blown air consumers or the air flow from the air pressure source Inlets can be fed to a plurality of ejectors.

A particularly simple embodiment results when the outlet of the Ejector forms the blown air consumer.

The blown air consumer can use a blower nozzle, in particular a separator blow nozzle or a pre-loosening blow nozzle.

Is multiple ejectors a switchable check valve or a Dros selector element upstream, this way each ejector can be individually controlled and clocked as well as the control and the clock indivi be changed duel.

Particularly short flow paths and therefore short air control times can NEN can be achieved that ejector and switchable valve or Throttle element and possibly vacuum or blast air consumers a building form unity. This enables the cycle times of the sheets to be shortened processing machine.  

Is the switchable check valve a 2/2-way valve, in one position the ejector with the air pressure source and in its other position the Ejector is connected to the atmosphere, so takes place in one position of the 2/2-way valve an overpressure or underpressurization of the Air consumer and in the other position an exposure to the Air consumer with atmospheric pressure, what with vacuum consumers means an immediate breakdown of the vacuum.

To achieve high shaft speeds and therefore short air control times range, the switchable shut-off valve can be a solenoid valve.

The air pressure source can be a compressed air pump or a compressed air be memory.

Embodiments of the invention are shown in the drawing and are described in more detail below. Show it

Fig. 1 is a circuit diagram of a first embodiment with pressurized air consumers

Fig. 2 is a circuit diagram of a second embodiment with pressurized air consumers

Fig. 3 is a circuit diagram of a third embodiment with pressurized air consumers

Fig. 4 is a circuit diagram of a fourth embodiment with pressurized air consumers

Fig. 5 is a circuit diagram of a first embodiment with consumers that can be pressurized

Fig. 6 is a circuit diagram of a second embodiment with consumers that can be pressurized

Fig. 7 is a circuit diagram of a third embodiment with consumers that can be pressurized.

The exemplary embodiments shown in the figures have an air pressure source designed as a compressed air pump 1 , of which an excess compressed air flow via a 2/2-way valve 2 designed as a solenoid valve in FIGS. 1-3 and 5-7 and a solenoid valve in FIG. 4 from formed switching valve 2 'one or more ejectors 3 can be fed. The pressurized air flow is fed to the inlet 4 of the ejector 3 .

When energized 2/2-way valve 2, or on-off valve 2 'is the compressed air pump 1 to the inlet 4 of the ejector 3 is connected, while in non stromtem 2/2-way valve 2 and selector valve 2' of the inlet 4 of the ejector 3 with the outside air in Connection is established.

A connection 7 opens radially into the transition region 6 of the ejector 3 which passes from the inlet 4 into the outlet 5 .

In FIGS. 1 to 4 of the terminal 7 resulting in one or more than known lifting sucker 8 trained vacuum consumers.

In the exemplary embodiment in FIG. 1, the connection 7 of the ejector 3 is connected via branched lines 9 to three lifting suction devices 8 forming a group, so that they can also be subjected to negative pressure.

The outlet 5 of the ejector 3 leads to the atmosphere via a noise damper 10 .

The embodiment shown in FIG. 2 already has branches 20 in the feed line 11 from the 2/2-way valve 2 , each of which leads to an ejector 3 , so that each vacuum cleaner 8 is supplied with negative pressure by its own ejector 3 .

In Fig. 3 is a coming from the air pump 1 supply line 12 ver, each branch 13 leads to a 2/2-way valve 2 , which together with an ejector 3 and a suction cup 8 each form a construction unit. Each suction cup 8 can thus be controlled individually.

In the embodiment in Fig. 4, which corresponds to the basic structure of the exemplary embodiment from FIG. 1, the ejector 3 is bypassed by a bypass line 22 in which a controllable quick exhaust valve 23 is arranged. If the lifted by the suction cups 8 Bo conditions are solved again by the suction cups 8 , the switching valve 2 'is closed and the quick exhaust valve 23 is opened, so that the arc detected by the suction cups 8 can be released immediately.

Depending on the type of arc, the intensity of the suction cups 8 supplied via the bypass line 22 can be adjusted by an adjustable throttle 24 arranged in the direction of flow behind the quick exhaust valve 23 .

To prevent contamination from e.g. 'Avoid the ejector as paper dust in the above, the switching valve 2 3 supplied air, is arranged behind the ejector 3, a filter 25 in the conduit. 9

In FIGS. 5 through 7, the terminal 7 leads to the outside air, while the outlet 5 leads to one or more Blasluftverbrauchern.

Here, 5 is in Fig. 3 of the ejector is a branched connected to the outlet 5 to line 14, each branch 21 leads to a blowing nozzle 15 formed as a blown air.

In the embodiment of FIG. 6, the supply line 16 connected to the outlet of the 2/2-way valve 2 is already branched, each branch 19 leading to the inlet 4 of an ejector 3 , the outlet 5 of which is simultaneously designed as a blowing nozzle 15 .

Just as in Fig. 3 in Fig. 7 a coming from the compressed air pump 1 coming line 17 and each branch 18 is fed to a 2/2-way valve 2 , which forms a structural unit together with an ejector 3 and a blowing nozzle 15 . Thus, each blowing nozzle 15 can also be controlled individually here.

It is understood that in an advantageous embodiment, a combination of the versions described in FIGS. 1 to 4 with the versions described in FIGS . 5 to 7 is possible by connecting one or more suction air consumers to the 7 of an ejector 3 and the outlet 5 of the ejector 3 one or more blown air consumers are connected.

In all of the exemplary embodiments, by actuating the 2/2-way valve or the switching valve 2 ', the time and the duration of the application of the ejector (s ) 3 with compressed air are dependent on production data which, for. B. detected by sensors or manually entered into a control unit to determined. Important production data are e.g. B. the speed of the drive of the sheet processing machine, the type and quality and the format of each sheet to be processed.

This can influence the workflow of air consumers Production data in its negative impact can be eliminated.  

Reference list

1

Air pump

2nd

2/2 way valve

2nd

'' Switching valve

3rd

Ejector

4th

Inlet

5

Outlet

6

Transition area

7

Connection

8th

Suction cups

9

cables

10th

Silencer

11

Supply

12th

Supply

13

branch

14

Supply

15

Blow nozzle

16

Supply

17th

Supply

18th

branch

19th

branch

20th

Ramifications

21

branch

22

Bypass line

23

Quick exhaust valve

24th

throttle

25th

filter

Claims (27)

1. Air control and / or air control device for air consumers on sheet-processing machines, in particular sheet feeders, with an air pressure source from which an overpressure air stream can be generated and can be fed to the inlet of a small cross-section of an ejector in time with the sheet-processing machine and through the ejector to one Large cross-section outlet of the ejector flows, a radial connection opening into the ejector between the inlet and outlet of the ejector and the outlet or the radial connection of the ejector being connected to the air consumer, characterized in that between the air pressure source and the ejector ( 3 ) a switchable shut-off valve is arranged, which can be switched on and off alternately at the cycle of the sheet processing machine, the time or times of switching on and off being adjustable within one work cycle as a function of production data. 2. Air control and / or air control device according to the preamble of claim 1, characterized in that between the air pressure source and the ejector an adjustable throttle element  is arranged through which the flow through the throttle element Volume flow is adjustable depending on production data. 3. Air control and / or air control device according to one of the claims che 1 and 2, characterized in that the check valve and / or the throttle element manually depending on the product ons data is adjustable. 4. Air control and / or air control device according to one of the claims che 1 and 2, characterized in that the check valve and / or the throttle element automatically as a function of Sensors recorded production data is adjustable. 5. Air control and / or air control device according to one of the previously going claims, characterized in that the Production data the machine speed of the sheet processing Machine and / or the type and quality and / or the format of the are processing sheets. 6. Air control and / or air control device according to claim 5, there characterized in that the intrusion of the Sperrven tils during a turn of the drive of the bow ver  working machine defined work cycle with higher Maschi speed to an earlier angular position of the drive than at lower machine speed. 7. Air control and / or air control device according to one of the preceding claims, characterized in that meh rere ejectors ( 3 ) are arranged one behind the other with flow cross sections increasing in the flow direction, the individual ra dialen connections are led together to a common radial connection. 8. Air control and / or air control device according to one of the preceding claims, characterized in that the radial ( 7 ) connection of the ejector ( 3 ) leads to a vacuum consumer and the outlet of the ejector ( 3 ) an outlet leading to the atmosphere ( 5 ) of the air flow. 9. Air control and / or air control device according to claim 8, characterized in that the connection ( 5 ) via a noise damper ( 10 ) is connected to the atmosphere. 10. Air control and / or air control device according to claim 8, characterized in that the connection ( 7 ) leads to a plurality of vacuum consumers. 11. Air control and / or air control device according to claim 8, characterized in that the air flow of the air pressure source the inlets ( 4 ) of a plurality of ejectors ( 3 ) can be performed. 12. Air control and / or air control device according to one of the previously outgoing claims, characterized in that the Vacuum consumer is a sucker. 13. Air control and / or air control device according to claim 12, characterized in that the suction device is a lifting suction device ( 8 ) or a drag suction device. 14. Air control and / or air control device according to one of the preceding claims, characterized in that between controllable ejector ( 3 ) and vacuum consumer a controllable quick exhaust valve ( 23 ) is arranged. 15. Air control and / or air control device according to claim 14, characterized in that through the quick exhaust valve ( 23 ) a connection ( 22 ) from the air pressure source to the Un vacuum consumer can be opened. 16. Air control and / or air control device according to one of the preceding claims 1-7, characterized in that the radial connection ( 7 ) of the ejector ( 3 ) is connected to the outside air and the outlet ( 5 ) of the ejector ( 3 ) a blown air consumer. 17. Air control and / or air control device according to claim 16, characterized in that the outlet of the ejector ( 3 ) leads to a plurality of blown air consumers. 18. Air control and / or air control device according to claim 16, characterized in that the air flow of the air pressure source the inlets ( 4 ) of a plurality of ejectors ( 3 ) can be supplied. 19. Air control and / or air control device according to one of claims 16 to 18, characterized in that the outlet ( 5 ) of the ejector ( 3 ) forms the blown air consumer. 20. Air control and / or air control device according to one of claims 16 to 19, characterized in that the blown air consumer is a blower nozzle ( 15 ). 21. Air control and / or air control device according to claim 11, characterized in that the blowing nozzle ( 15 ) is a separating blowing nozzle or a pre-loosening blowing nozzle. 22. Air control and / or air control device according to one of the preceding claims, characterized in that a plurality of ejectors ( 3 ) each have a switchable check valve or a throttle element connected in series. 23. Air control and / or air control device according to claim 22, characterized in that the ejector ( 3 ) and switchable shut-off valve or a throttle element and optionally vacuum or blown air consumers form a structural unit. 24. Air control and / or air control device according to one of Ansprü che 22 to 23, characterized in that the schaltba re check valve is a 2/2-way valve ( 2 ), in one position of the ejector ( 3 ) with the air pressure source and in whose other position the ejector ( 3 ) is connected to the atmosphere. 25. Air control and / or air control device according to one of the claims che 22 to 24, characterized in that the switchable Re shut-off valve is a solenoid valve. 26. Air control and / or air control device according to one of the preceding claims, characterized in that the air pressure source is a compressed air pump ( 1 ). 27. Air control and / or air control device according to one of the claims che 1 to 17, characterized in that the air pressure source is a compressed air reservoir.