DE2207459A1 - Filtering beer - with automatic feed of filtering aid as function of flow and turbidity - Google Patents

Abstract

A metering device, esp. for beer mfr. is used for the automatic metering of filtering aid material into the liquid, as a function of the flow rate and turbidity; a control unit, actuated by the flow meter and turbidity meter, regulates the metering pump so that the rate of supply of filter aid material is a function of the product of flow rate and turbidity.

Description

Dosing device for F siglteiten, in particular for aier The invention relates to a dosing device for liquids, especially for beer, for automatic, Quantity- and turbidity-dependent dosage of filter aids, in which the Filter aid is metered by a metering pump.

It is known to use filter aids for the filtration of liquids to be added in dosed quantities when a simple separation of solids is required straining the liquid is not possible. The application of filter aid -teln is especially common when the particles to be sieved from the liquid are too small or if the particles are not granular but plastic or slimy are.

The addition of pilter aids, e.g. diatomaceous earth, should be avoided be that the particles to be separated form a layer on the filter that make a further passage and consequently a further filtration of the liquid difficult.

Since then it has been customary to determine the amount of filter aid empirically Especially when filtering beer, the visual impression of the liquid to be filtered adapt without having to adapt to changing amounts of raw materials during one Filtration could be performed with sufficient accuracy. The consequence was since then either too high a consumption of filter aid; on the other hand led Too little filter aid dosage leads to premature filtration cycle was canceled because the clarification tube was misplaced in front of or in the filter.

Attempts have since been made to reduce the amount of filtration supporting filter aids in terms of quantity by controlling the turbidity of the liquid to be filtered and the amount of filter aid based on this measured value was discontinued. However, if the consistency of the particles to be deposited changes changes and the pressure difference at the filter increases because the volume output changes there set reducing deposits, it has not since been possible to adjust the dosage of the filter aid quantity automatically adapt to the lower throughput performance.

In order to solve this problem, in the case of a metering device, the at the beginning described type provided that they have a mass flow meter and an opacimeter and that further includes one of the mass flow meter and the opacimeter dependent control device is provided for the metering pump, which the of the Dosing pump delivered amount of filter aid depending on the product from the Volume flow meter determined the flow rate and the turbidity of the liquid controls. This results in a continuous adjustment of the amount of filter aid to actual needs. This is for a semi-automatic or even fully automatic Operation of the filter device is a great advantage. In a further embodiment can the control device for the amount of filter aid D has a characteristic curve D = pn, in which p means the turbidity of the liquid to be filtered and the exponent n has values in the range between 1.5 and 3, in particular approximately n = 2. Filtration experiments on beer using diatomaceous earth as filter aids have shown that better filtrate results are achieved if the amount of filter aid is higher in the case of greater cloudiness admitted as would correspond to a linear function. Particularly cheap Results could be obtained with the quadratic function D = pn. In the practical implementation, it has proven to be useful when in further Embodiment of the invention of the mass flow meter an impressed output current which is proportional to the flow rate k x v and furthermore the mass flow meter connected to a resistor that can be adjusted as a function of the turbidity p through which the output current is passed. The ones at the resistance The resulting electrical voltage then corresponds to the product as an analog value the flow rate k v and the turbidity p.

When filtering beer, the total range of turbidity includes This is a multiple of the Jelligell turbidity range that a batch is subjected to filtration each matter. In order to increase the measurement accuracy, therefore, in a further embodiment According to the invention, the total turbidity range is subdivided, with different turbidity normals M = M (EBO) are provided, to which the respective dosage amounts related to the time unit assigned to the metering pump, in particular graduated piston stroke speeds are assigned to the dosing pump. The various opacity normals are against each other interchangeable. There is therefore an easy option for the turbidity range to select the appropriate standard for the resulting batch and in the filter device to use. The opacimeter itself then only needs relative in the usual way Display values that can fluctuate between zero and 100% and each on the standard M used are related. Via a selector switch that works with the B-n sliding technology coupled for the measurement standards M. is, the stroke volume of the Dosierpumpenkólbens by means of a servomotor to one of the measurement standard M used Worth being brought. The adjustment of the amount of filter aid promoted the respective demand, i.e. the product of flow rate and turbidity can be achieved in a simple manner if in a further embodiment of the invention A drive motor is provided for the metering pump, the armature of which is dependent on one variable from the turbidity and the flow rate, according to the above proposal voltage generated across the resistor. In a further development of the invention can be provided that the drive motor is coupled to a tachometer generator whose Output voltage in a feedback branch of a motor acting on the drive motor, controller connected to the adjustable resistor at its input. Advantageously, the regulator can be one with the adjustable resistance on the one hand and Contain balancing bridge connected to the tachometer generator on the other hand.

The invention is illustrated below with reference to one in the drawing Ausftiiirungsbeispieles described and explained in more detail.

The figures show: FIG. 1 an overview image of a metering device for raw beer and FIGS. 2 to 5 are diagrams for explaining the mode of operation of the metering device according to Fig. 1.

The Dosicrsinrichtung shown according to Fig. 1 contains al £ main parts a quantity meter 11 for detecting the in a Pipe 12 raw beer quantity flowing at a speed v. The cloudiness of the raw reindeer is detected with a rU exercise meter 13, which is also connected to the pipe 12 is and the relative turbidity p in percent compared to a normal turbidity 14 determined. In addition, a metering device 15 is provided with which as a filter aid Kieselguhr is pumped into the pipeline 12 leading to a filter (not shown) can be, the dosage amount D of the. Filter aid from the product the determined by the flow meter 11, proportional to the flow velocity v flow rate k x v and the turbidity p of the raw beer is proportional.

An electrical control device is used to adjust the amount of filter aid provided, which comprises a current source 21 coupled to the flow meter 11, which one proportional to the flow velocity v and consequently to the flow rate, supplies impressed current J, which is passed via an adjustable resistor 23 whose tap is coupled to the turbidity meter 13. At resistor 23 arises a voltage that acts as an analog control variable for the product of the flow rate and the turbidity p is available and to the input of a with not shown Power amplifiers equipped balancing bridge 25 is given. At the exit of the A drive motor 26 is connected to the bridge, the armature speed of which corresponds to the bridge output voltage is at least approximately proportional. This DC motor drives the dispenser 15, the metering piston 16 of which is automatically set to different stroke values - depending on which 1 'opacity range the inserted opacity normal 14 can detect for which in Fig. 3 different absolute values Ml to M5 as a function indicated by the size belonging to the z ~ deep normality.

When one of the various turbidity standards M1 to M5 is inserted is, the piston 16 of the metering pump experiences a setting corresponding to this standard, which at constant drive speed and therefore at the same relative Turbidity values p results in a higher flow rate for the filter aid, the higher the stroke is automatically set when the standard part is pushed in.

The drive motor 26 is used to increase the accuracy of the dosage of the metering device 15 is coupled to a tachometer generator 28, the one with the drive speed the DC motor 26 and the metering device 15 proportional output voltage supplies, which is introduced as a feedback signal in the adjustment bridge 25 and a stable control behavior of the control device is guaranteed.

In Fig. 2 is the linear relationship between the amount of solvent D and the flow rate v of the raw beer reproduced through the direct coupling between the flow meter 11 and the power source 21 in one linear relationship between the applied current J and the flow rate v expresses.

Practical filtration tests have shown that better filtration results can be achieved if the hieselgur dosing in case of higher turbidity in one occurs to a higher degree than would be achievable with a linear function.

In the illustrated embodiment it is accordingly provided that the resistance value R; with the help of the digging knife 13, for example Can be adjusted using a servomotor, not shown, according to a square Function can increase over the relative turbidity values p.

The particular advantage of the described sintering and their automatic dosing device is that it works very quickly responds to the changing turbidity values and the resulting turbidity - Capable of effectively intercepting peaks. It is therefore easily possible with To work beer flow velocities, which can be in the range of 1 to 3 m / seo.

Claims (1)

Expectations 1. Dosing device for liquids, especially for beer, for automatic, quantity and turbidity-dependent dosing of filter aids, in which the filter aid is metered by a metering pump and with a mass flow meter and an opacimeter, characterized in that a control device dependent on the mass flow meter and the opacimeter (21 to 25) is provided for the metering pump (15), which is used by the metering pump The amount of filter aid supplied (D) depends on the product of the quantity flow meter determined flow rate (k x v) and the turbidity (p) controls. 2. Device according to claim 1, characterized in that the control device has a characteristic curve (D = p 3, beinelchem (p) the turbidity of the filter to be filtered F1 # means liquid and the exponent (n? Values in the range between 1.5 and 5 has, in particular is approximately (n = 2). 5. Device according to claim 1 or 2, characterized in that the mass flow meter (11) is coupled to a variable power source! 21) which has an impressed output current (J) = k x v), urid that the flow meter connected to a resistor (~ (? 5) that can be adjusted depending on the turbidity (p) is. 4. Device according to claim 3, characterized in that the adjustable Tap (22) of the resistor (23) is coupled to a servomotor, which is operated by the turbidity knife (13) is controlled. 5. Device according to one of claims 1 to 4, characterized in that that different turbidity normals (M1 to M5 = M (EBO)) are provided, which assigned to the dosing pump (15) in each case related to the time unit are, in particular graded tolbenhubzerte are assigned to the metering pump. 6. Device according to claim 5, characterized in that the drive a direct current motor (26) is provided for the metering pump (15), the armature of which at a variable depending on the turbidity and the]) flow rate Tension lies. 7. Device according to claim 6, characterized in that the DC motor (26) is coupled to a tachometer generator (28), the output voltage of which in one Feedback branch of a DC motor acting on its input the controller (25) connected to the adjustable resistor (22). 8. Device according to claim 7, characterized in that the controller (25) one with the adjustable resistor (23) on the one hand and with the tachometer generator (28) on the other side connected balancing bridge contains one or more gain stages may have. L e r s e i t e