EP1979167A1

EP1979167A1 - Metering device for a dampening agent

Info

Publication number: EP1979167A1
Application number: EP07702936A
Authority: EP
Inventors: Dietger Hesekamp; Robert Holtwick; Burkhard Herzog
Original assignee: Technotrans SE
Current assignee: Technotrans SE
Priority date: 2006-02-01
Filing date: 2007-01-22
Publication date: 2008-10-15
Also published as: CN101378908B; DE102006004924A1; DE102006004924C5; CN101378908A; DE102006004924B4; WO2007101501A1

Abstract

The invention relates to a metering device for a dampening agent for offset printing. Said device comprises a valve, the valve body (34) of which can be operated by means of a float (14) in the dampening solution (12). The invention is characterized in that the float (14) is connected to the valve body (34) via a unidirectional connection that is only effective in one direction but ineffective in the opposite direction.

Description

WET MEDIUM-METERING

The invention relates to a dampening solution metering device for offset printing, with a valve whose valve body is controllable by a float body in the dampening solution.

As dampening solution for offset printing, water with various additives is generally used. Examples of suitable additives are alcohol for reducing the surface tension, anticorrosive and antimicrobial substances, surface-active substances or the like.

Of course, the desired effect of the fountain solution only occurs if the predetermined dosage is maintained relatively accurately. In particular, alcohol as an essential additive evaporates relatively quickly, so that a constant replenishment is necessary here.

Because of the lower density of alcohol compared to water, float bodies form a suitable tool for determining the respective density of the dampening solution and thus the alcohol content. It is therefore known to use float or buoyancy bodies for determining the density and thus the alcohol content, which are arranged directly in the dampening solution bath.

The usual dosing with more or less rigid connection between the float body and the metering body have the disadvantage that in practice often leads to uncontrolled opening and closing of the valve, as caused by disturbances of all kinds, eg. As vibrations, currents, etc., movements of the buoyant body are caused, which are then transmitted directly to the valve body.

The object of the invention is therefore to provide a metering device of the type mentioned, in which the transmission of disturbing movements of the buoyant body can be excluded on the valve body. To achieve the object, a metering device according to the invention is characterized in that the float body is connected to the valve body via a one-way connection, which is effective in one direction, in the opposite direction, however, free.

The solution according to the invention has the advantage that disturbing movements of the float body, in particular reciprocating oscillatory movements of the float body are not transmitted to the valve body.

Preferably, the valve body can be raised by the float body in the open position and lowered by gravity into the closed position.

The valve body may be spherical or plate-shaped. For example, it may be lowered to a seat surrounding an outlet. This outlet is preferably located in the bottom of an additive container, which is expediently arranged in an elevated position above the dampening solution container, so that the additive can be transferred by gravity into the dampening solution.

Instead of the use of gravity to move the valve body in the closed position, another biasing force may be provided, such as a spring force.

If the valve body is not a ball, but a flat plate, it must be avoided at all costs that tilting movements of the float lead to tilting movements of the valve plate, since the plate, when tilted on the valve seat, can not close the valve opening. In cases of this type, in which, moreover, a mechanically direct connection between the float and the valve body is provided, at least one universal joint is to be inserted into this direct mechanical connection, which ensures that the tilting movements of the float body are not transmitted further to the valve body. In the following preferred embodiments of the invention will be described with reference to the accompanying drawings.

FIG. 1 is a schematic vertical section through a metering device according to the invention; FIG. and

Fig. 2 is a perspective view of the arrangement

Float body and valve body.

In the drawing, a dampening solution container is designated 10. A dampening solution bath 12 is located in the dampening solution tank 10. In the dampening solution bath 12 there is a float body 14, which can be raised and lowered as a function of the density of the dampening solution bath 12. The float body 14 is connected on its upper side with a bolt 22 which rises vertically upwards.

Above the dampening solution bath 12 is a container 24, in which an additive 26 is located. The type of suspension of the container 24 above the dampening solution container 10 is not shown. As already mentioned, the present drawing is purely schematic.

In the unspecified bottom of the container 24 is an insert 28, which forms a vertically extending passage 30 which ends up in a valve seat 32.

The bolt 22 enters the passage 30 from below. It is in this passage in accordance with the movements of the float body 14 upwards and downwards displaceable.

On the valve seat 32 is a valve body 34, illustrated in the illustrated embodiment by a ball. The valve body 34 can be lifted with ascending float body 14 by means of the bolt 22 from the valve seat 32. Thus, the valve is opened so that additive 26 can flow down from the container 24 down into the dampening solution 12, as indicated by arrows in Fig. 1. On top of the insert 28 is a cage or basket 36 with slots 38 in the peripheral surface through which the additive 26 may enter the interior of the basket 36. The basket 36 serves to prevent the valve body 34 completely from the position above Ven¬

in Fig. 2, the arrangement of the upper container 24 and the float body 14 is shown in a perspective view.

In the described connection between the float body 14 and the valve body 34, the valve body may indeed be raised by the float body in the open position, but there is no rigid connection between the float body and valve body in the closing direction.

As long as gravity is used to close the valve, the valve assembly is bonded to the illustrated substantially vertical arrangement. On the other hand, it is also possible to provide spring force or magnetic force or the like for closing the valve.

Claims

1. dampening solution metering device for offset printing, with a valve whose valve body (34) by a float body (14) in the dampening solution (12) is controllable, characterized in that the float body (14) with the valve body (34) via a disposable Connection is connected, which is effective in one direction, in the opposite direction, however, free.

2. dampening solution metering device according to claim 1, characterized in that the valve body (34) by the float body (14) in the open position can be raised and lowered by gravity into the closed position.

3. dampening solution metering device according to claim 1 or 2, characterized in that the valve body (34) is spherical and in a substantially vertical guide (36) is movable upwards and downwards.

4. dampening solution metering device according to one of claims 1 or 2, characterized in that the valve body (34) is plate-shaped.

5. dampening solution metering device according to claim 3, characterized in that the guide (36) of the valve body (34) from a valve seat (32) emanates, with which the valve body (34) cooperates for opening and closing the valve opening.

6. dampening solution metering device according to one of claims 1 to 5, characterized in that above the dampening solution bath (12) an additive container (24) is provided, in the bottom of the valve seat (32) is located, and that on the float body ( 14) mounted bolt (22) through the valve seat (32) passes through the valve body (34) into engagement.

7. dampening solution metering device for offset printing with a valve whose valve body is controllable by a float body in the dampening solution, characterized in that the float body is connected to the valve body via a mechanical connection device in which a universal joint is located, such that Tilting movements of the float body are isolated during the transmission in the direction of the valve body.

8. dampening solution metering device according to claim 7, characterized in that the float body is connected to the valve body directly via a rod, and that in the rod is a universal joint.