DE10320585A1 - Air suction and discharge valve for use in bending or printing machines, has recesses formed at lateral surface of throttle body and have cross sectional shapes defining through openings connecting inlet and outlet of one chamber - Google Patents

Abstract

Recesses (11) are formed at the lateral surface of a spring biased throttle body (8) positioned over a diaphragm (2). The throttle body is movable to close or open a cylindrical by-pass path (10) between two chambers (3,4). The recesses have cross sectional shapes exceeding the by-pass paths, connecting the inlet (5) and the outlet (6) of one chamber (4). The other chamber (3) contains pilot pressure.

Description

The The present invention relates to a valve for actuation of suction and blast air consumers of a sheet-processing machine.

such Valves are used in particular in printing presses in which along the arch conveyor path Various pneumatic sheet guiding elements supporting the sheet travel are arranged are suction or blown air required for their operation. The Bow guide elements must be in their effect on the range of substrates can be adjusted. to Generation of the required Suction or blowing air are provided in centrally arranged units, that generate a volume flow that is greater than that of the consumers needed Volume flow and which is supplied to consumers via line systems. To reduce this volume flow in the pipeline are in front of the individual consumers valves arranged.

This have overflow openings on that by a slider, either manually or from the control center is moved continuously open or can be closed, the effective cross-section through which the blowing or suction air can flow the overflow opening depends on the slide position changes.

According to one Known design is the slide from an electric drive emotional. The disadvantage of this version is the long response times that are caused because the drive movement mostly over a gearbox has to be implemented. In addition, the size proves to be such Valves as a disadvantage.

at another known version is the drive of the slide as a one-way pneumatic Working cylinder executed, who works against a spring. Such a valve draws is characterized by low response times. Through the piston seals However, the working cylinder creates relatively large leaks, which of which Blown air or the units producing the suction air through additional services must be balanced. If higher quality seals are used to minimize leakage, increases the friction between the piston and the cylinder wall and with it the Hysteresis, which adversely affects the control behavior of the valve affects.

According to another known design, the function of the working cylinder is taken over by an additional valve chamber. With such in the DE 37 20 738 A1 described diaphragm valve are formed, which are delimited from each other by a membrane, wherein a control pressure is present in the first chamber and a needle movably mounted in the second chamber is displaced depending on the control pressure in the first chamber. As a result, an opening of variable cross-section is formed between the needle seat and the needle and a fluid can flow through it.

The The disadvantage of such a valve is that it is only relatively small flow rates can be throttled it has a complicated structure and a large size.

The The invention has for its object a valve of the aforementioned Kind of improving that it throttles large volume flows can be such as those used to control suction and blast air consumers Machines occur and that requires a small installation space.

According to the invention Task solved with a valve, that has the features of claim 1.

The The present invention has the advantage that the valve is leak-free works and has low response times.

in the open Condition, the valve has a large flow cross-section through it the extensions of all formed in the lateral surface of the cup-shaped throttle body Recesses is determined. So that throttle body must be between his two End positions in which the valve is opened or is closed, only a relatively short Cover the path which enables a small size.

The Throttle behavior of the valve is determined by the number, the size, the Shape and distribution of the recesses in the lateral surface of the throttle body certainly. This makes it possible that the throttle behavior of the valve can only be achieved by exchanging the throttle body to change, without the one with the throttle body overflow channel in sealing contact can be changed got to.

The the throttle body in an end position tensing and counteracting the effect of the control pressure Spring is directly in the media-side chamber in a space-saving manner in the flow channel arranged.

In In an advantageous development, the invention provides for the throttle body form a bottom facing the membrane, the recesses are in the form of slots and extend to the bottom. This has the advantage that the membrane is protected from damage by the contact with it throttle body protected is. In addition to the slot shape can the openings also be formed with a cross section that increases with increasing Distance from the floor widened or tapered.

Thereby is achieved that the valve depends on the respective application characteristics throttles particularly sensitively in the range of smaller or larger pressures.

It also proves to be advantageous on the one facing the throttle body Arrange a pressure plate on the side of the membrane. This will make the Diaphragm wearing Relative movements between the bottom of the throttle body and the membrane avoided.

To Another development of the invention is the throttle body Interchangeable to adapt to the volume flow to be controlled on the media side arranged. For this purpose, there is a receiving pin arranged coaxially to the overflow channel in the second chamber formed with a guide pin arranged on the throttle body in the form of a tour cooperates and can be inserted or plugged into this.

A further training provides for the spring to adapt to the Arrange control pressure interchangeably. For this purpose, the spring is designed such that it can be pushed onto the mounting pin.

It also proves to be advantageous, a one in the first chamber Provide the end position of the membrane predetermined stop, either with the membrane is firmly connected or fixed to the housing. The attack causes the diaphragm in the end position of the throttle body, the the open position corresponds, approximately plan is what a defined response behavior of the valve Actuation with the control pressure guaranteed. The attack can also part of the housing his.

A advantageous embodiment also consists in the design of the housing in Form of two detachable interconnected housing parts, between which the housing diaphragm dividing into two chambers clamped on all sides at its edge is. The membrane thus seals the housing from the housing environment and prevents undesirable leakages of the chambers are avoided.

is it is necessary to replace individual elements of the valve, for example a worn diaphragm or throttle body of one type against one throttle body of another type, can solving them alone the connection between the two housing parts made accessible become.

Based of an embodiment the following invention will be explained in more detail. The accompanying drawing shows the valve of the invention in a sectional view.

The valve body is made up of two parts 1.1 . 1.2 formed and encloses an interior. The housing parts 1.1 . 1.2 are detachably connected with screws. Between the two housing parts 1.1 . 1.2 extends a membrane 2 that on all sides on its edge between the housing parts 1.1 and 1.2 is clamped and the interior of the valve in two chambers 3 . 4 divided. The first chamber 3 can be acted upon with a control pressure, which with a through a line to the first chamber 3 supplied control medium is applied, which is preferably air. The first chamber 3 takes the one with the membrane 2 firmly attached stop 13 on which is on the of the membrane 2 opposite side on the inner wall of the first chamber 3 supported.

The second chamber on the media side 4 has an inlet 5 and an outlet 6 on that over a cylindrical overflow channel 10 are interconnected. In the overflow channel 10 is a throttle body 8th coaxial to the longitudinal axis of the overflow channel 10 slidably arranged. The throttle body 8th is cup-shaped and its outer shape on the cross section of the throttle channel 8th matched so that the hollow cylindrical surface of the throttle body 8th with the wall of the throttle channel 8th is in sealing contact. The cross section of the throttle duct is preferably 8th circular. The slidable mounting of the throttle body is in the second chamber 4 coaxial to the overflow channel 10 arranged spigot 12 with one on the throttle body 8th trained guide pin 16 cooperates in the form of a leadership. On the mounting pin 12 is the feather 7 postponed, which is on one side directly or indirectly on the inner wall of the second chamber 4 supports and the other side of the throttle body 8th is applied.

Between the floor 15 of the throttle body 8th and the membrane 2 is a solid with the membrane 2 connected pressure plate 14 intended.

The wall of the overflow channel 10 facing outer surface of the throttle body 8th preferably has a slot-shaped design savings 11 on that down to the floor 15 of the throttle body 8th extend. The cutouts 11 form with their over the end of the overflow channel ( 10 ) protruding cross-sectional area the inlet ( 5 ) with the outlet ( 6 ) connecting overflow openings.

following the mode of operation of the invention will be explained.

Located in the first chamber 3 If there is no control pressure or only a low control pressure, the valve is in the open position.

The feather 7 presses the throttle body in this state 8th that of the locating pin 12 and the guide pin 14 is guided against the pressure plate during its movement 14 , This affects the membrane 2 by deflecting it, which is from the first chamber 3 enclosed volume in favor of that of the second chamber 4 enclosed volume increased. The deflection of the membrane 2 is through the attack 13 limited. The in the outer surface of the throttle body 8th trained recesses 11 protrude above the inlet 5 facing end of the overflow channel 10 addition, which acts as a control edge and together form the overflow channel 10 outstanding cross-sectional area overflow openings.

Compressed air generated by a pressure generator, not shown, in the form of blowing or suction air at the inlet 5 applied, it flows through the overflow openings and emerges at the outlet 6 out of the valve to be supplied to a consumer. Thereby lie in the second chamber 4 equal pressures before and after the overflow openings.

If the volume flow of the compressed air supplied to the consumer is to be reduced, the first chamber is charged 4 with a control pressure, which is done by introducing compressed air. The force exerted by the control pressure is greater than the sum of those by the spring 7 applied force, the frictional force, and that of the compressed air in the second chamber 4 on the membrane 2 applied force becomes the membrane 2 deflected. The movement of the membrane 2 transfers over the pressure plate 14 on the throttle body 8th , which is moved from the open position towards the closed position and the spring 7 compresses. The throttle body is immersed 8th deeper into the overflow channel 10 and the cross-sectional area of the recesses through which the compressed air can flow 11 decreases to the extent that the overflow channel 10 the recesses 11 covers. When using the valve according to the invention, it is irrelevant in which direction the second chamber 4 is flowed through.

1

casing

1.1 1.2

housing part

2

membrane

3

first chamber

4

second chamber

5

inlet

6

outlet

7

feather

8th

throttle body

9

lateral surface

10

overflow

11

recess

12

spigot

13

attack

14

printing plate

15

ground

16

spigot

Claims (11)

Valve for controlling suction and blown air consumers of a sheet-processing machine, in particular a printing machine, with a housing ( 1 ) enclosed interior, which is covered by a membrane ( 2 ) into a first chamber to which a control pressure can be applied ( 3 ) is divided and into a second, media-side chamber ( 4 ) with an inlet ( 5 ) and an outlet ( 6 ) via a cylindrical overflow channel ( 10 ) in which a spring ( 7 ) against the membrane ( 2 ) braced pot-shaped throttle body ( 8th ), the one with the overflow channel ( 10 ) has a sealing surface in sealing contact, in which recesses are provided, coaxial to the overflow channel ( 10 ) is displaceable between a throttle position in which the overflow channel ( 10 ) is closed and a throttle position in which the recesses ( 10 ) containing area of the lateral surface via the overflow channel ( 10 ) protrudes, the recesses with their overflow channel ( 10 ) protruding cross-sectional area the inlet ( 5 ) with the outlet ( 6 ) form connecting overflow openings. Valve according to claim 1, wherein the throttle body ( 8th ) one of the membrane ( 2 ) facing floor ( 15 ) and in the outer surface ( 9 ) slit-like, down to the ground ( 15 ) extending recesses ( 11 ) are trained. Valve according to claim 1, wherein the recesses ( 11 ) in the circumferential direction evenly in the outer surface ( 9 ) are distributed. Valve according to claim 1, wherein the throttle body ( 8th ) too adaptable to the media side volume flow is arranged interchangeably. The valve of claim 1, wherein the second chamber ( 4 ) one coaxial to the overflow channel ( 10 ) arranged spigot ( 12 ) which is connected to the throttle body ( 8th ) trained guide pin ( 16 ) cooperates in the form of a tour. The valve of claim 1, wherein the spring ( 7 ) is interchangeably arranged to adapt to the control pressure. A valve according to claim 5, wherein the spring ( 7 ) on the mounting pin ( 12 ) can be postponed. Valve according to claim 1, wherein in the first chamber ( 3 ) an end position of the membrane ( 2 ) default stop ( 13 ) is provided. The valve of claim 8, wherein the stop ( 13 ) with the membrane ( 2 ) connected is. Valve according to claim 1, wherein between the membrane ( 2 ) and the spring ( 7 ) one with the membrane ( 2 ) connected pressure plate ( 14 ) is arranged. The valve of claim 1, wherein the housing ( 1 ) two detachably connected housing parts ( 1.1 . 1.2 ) between which the membrane ( 2 ) is clamped on all sides at its edge.