HU192476B - Scales proportioning by weight with quick-control mechanism - Google Patents

Abstract

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a metering balance with a quick-check mechanism having a constant equilibrium mechanical balance structure (1), a support bushing (4) supported by a bolt sleeve assembly (4), and a control arm (5) with auxiliary lift (10) and a lifting lever (12) and a control arm (5). ) has a pre-tensioner (10) for the connector. The control arm (5) can be connected to the balance device (1) and a control arm (15) mounted on a pivot (14) is pivotally mounted. With the lever (12), tilting the pretensioner (10) in the correct direction, the auxiliary lift (10) unlocks the balance structure (1) from the control arm (5) and at the same time connects it with the control lever (15). In the case of doses within the margin of tolerance determined by the position of the adjusting weight (17) formed by the control lever (15), the balance structure (1) is forced into equilibrium. (Typical Figure 1) -1-

Description

The subject matter of the application is a weighing metering balance with a quick-checking mechanism, the mechanical balance structure of which is in constant equilibrium and is connected to the balance structure. It has a control lever and a pre-tensioner attached to the control lever. The control arm is supported by a pin-sleeve assembly and is provided with an auxiliary control lever which can be connected to the balance structure, and a pre-tensioner with an auxiliary lever raising the control lever from the balance structure and a lever.

The present invention can be easily and quickly checked for the accuracy of individual portions within or outside a given error margin on a weighted weighing scale.

Other embodiments of the invention also permit the determination of the degree of deviation from the nominal value and the automation of the control and interventions to ensure doses within the margin of error. '

Among the weighing scales, the so-called mechanical equilibrium mechanical balance structure is the most widespread one, which is mainly due to their simplicity, ease of maintenance and long service life.

this balance structure in itself is a properly designed two-arm hoist, which is used to measure the balance of the balance structure, and only by comparing the known and unknown masses acting on the two arms.

In the case of multi-stage automatic weighing scales, the signals required to complete the dosing cycles shall be provided before actual equilibrium is achieved, which shall be accompanied by the provision of feed-forward fittings next to the abovementioned balance structure.

One, the so-called pretensioner, tilts the balance structure to its equilibrium position a few percent before reaching the nominal dose value, which triggers less intense dosing.

The other is the so-called control lever, which, by eliminating dead time due to the inertia of the structural elements, tilts the balance structure even a few millennia before reaching the nominal value, which causes the dosing to stop.

The control lever has a push weight, which allows you to adjust the servings by a few percent.

The metering scale with the system outlined above is manufactured by many companies. Among them, the Chronos-Werk, the Greif-Werk, the Libra-Werk, the Haver-Boecker, the Rovema or the Hungarian METRI-POND-Balance Factory are also known through their equipment.

In the case of the aforementioned, and other known dosing scales with a constant mechanical balance structure, the accuracy of a metered dose can only be checked with restrictions.

First of all, when checking, the balance structure must be uncoupled from both the pretensioner and the control lever, which can be achieved by manually raising the control lever and the pretensioner.

This is cumbersome for metering scales where the pretensioner is not connected via the control lever but separately to the balance structure, or for metering scales that are difficult to access and accessible, and also larger, where the forces exerted are considerable.

In addition, due to the commonly used edge-to-edge support of the control lever, care must be taken to ensure that the edge-to-edge relationship remains correct during and after control, that is, the edge does not jump out of the edge.

The steady-state mechanical balance mechanism, independent of the control lever and the pretensioner, alone gives information about the exact match with the nominal value or, in the case of a deviation, only the deviation signal10 - more or less than the nominal dose value.

To determine the deviation, place the weights of known mass on the appropriate side to balance the balance structure, which is also rough.

In connection with checking the accuracy of the dose, and due to the aforementioned difficulties, it is widespread to install a separate balance beside the dosing scales discussed above.

This is cumbersome, especially if you need to move 50 kg portions for control.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the drawbacks of the prior art and to provide a weighing balance according to which the individual portions are within or outside a given margin of error; in other embodiments, the degree of deviation can be determined quickly and , or after 30 years, improper handling is also excluded. On the one hand, the invention is based on the discovery that, for the control of individual doses, it is usually sufficient to carry out a test in accordance with practical requirements, whether the deviation of the nominal value of the doses is within a certain margin of error.

A further reason was the recognition that the adjuster arms could be replaced by a pin-sleeve unit having a lower frictional resistance and a precise axis line, which can be used with a lower sleeve-unit.

The less favorable parameters are the s; the pusher weights on the lever may be compensated, and on the other hand, their effect on the nominal value of the dose is open to a negligible extent, while supporting the lever on the sleeve unit is advantageous in the practice of the invention.

The object of the present invention is achieved by a weight-based metering balance provided with a quick-control mechanism having a mechanical balance structure with a constant equilibrium position, a control lever connected to the balance structure and a pretensioner attached to the control lever. The control arm is supported by a pin-sleeve unit and at the same time a control arm is provided on the control arm, which is connected to the balance structure and pivots about an axis and has an adjusting weight.

The pre-tensioner is equipped with an auxiliary lift and a lever arm 60.

By tilting the pre-tensioner with the lever in the correct direction, the auxiliary lift detaches the balance structure from the control lever while connecting it with the control auxiliary lever. Error Error 21 Determined by Position of Adjustment Weight on Control Handle

In the case of 192,476 servings, the balance structure is forced to the equilibrium position by the control auxiliary lever and, in the case of a deviation outside the error margin, the balance structure tilts to the extreme position corresponding to the nature of the deviation.

In one embodiment of the present invention, transducers for detecting the aforementioned two extreme positions of the balance structure are provided. For doses outside the margin of error, the transducer will always be of the type that is more convenient for evaluation.

In another embodiment of the invention, a power-to-electrical signal converter (having an input power and an output proportional to the power acting on the input) is provided in the control auxiliary arm (U / F), the output of which is connected to an evaluation instrument. When checked, the input of the power / electric transducer (U / F) is connected to the balance structure so that its output produces an electrical signal proportional to the nominal value, which is preferably displayed by the evaluator in a mass dimension and at a sign.

Another preferred embodiment of the invention is wherein a pneumatic actuator is associated with the prestressing lever. This arrangement allows remote operation of the control unit. It is also a preferred embodiment of the invention in which the control lever is provided with a controllable adjusting member in the push lever actuator connection. Particularly preferred is a solution in which the adjustable actuator is pneumatically or electrically actuated and adapted to continuously adjust the thrust weight. This design allows the intervention to ensure doses within the margin of error, i.e., automation of the correction.

The invention will now be described with reference to the following drawings, in which:

Figure 1 is a schematic drawing of an embodiment of a metering scale according to the invention, a

Figure 2 shows the embodiment of Figure 1 in a check position, a

Figure 3 is a detail of an embodiment of a metering balance (U / F) according to the invention with a power to electrical converter.

On one of the arms of the steady-state mechanical balance structure 1, the receiving body 3 is suspended and on the other arm the weight plate 2 is suspended. The substance to be dosed is supplied to the receiving organ 3, but the weight plate is generally loaded with the weight corresponding to the nominal dose. The pin-sleeve unit 4 supports the control lever 5 and engages forwardly with the balance structure 1 through a tongue 6 formed as an example on the weight plate 2.

At the end of the control lever 5 facing the material receiving member 3, the pretensioner 8 is provided, which is also provided with an auxiliary lift 10 and a lifting lever 12. The force of the pretensioner 8 is preferably provided by a pretensioner spring 11 connected to the auxiliary lift 10. This force is exerted downwardly on the control lever 5 via the force transmission element 9 of the pretensioner 8, and through this it acts on the balance structure 1 forward. The control lever 5 is located on the pin of the material receiving body 3, and the lever on the weight plate is pivotally mounted about the axis 14, the control auxiliary lever 15, which in its normal position sits on the stop 16 preferably formed on the control lever 5. It is not connected to the balance structure 1, and when the control lever 5 is independent of the measuring structure 5, it is connected backwards to the balance structure 1 via the tongue 6. An auxiliary lever 15 is provided with an adjusting weight 17 for adjusting the retrograde force. The auxiliary lift geometry 10 associated with the pre-tensioner 8 is designed to raise the control lever 5 either directly or via the intermediate element 13 via the lever 12.

The balance structure 1 is usually provided with an indicator 18, which facilitates the adjustment of the equilibrium position.

The operation of the dosing scale described in 4z is as follows.

In the operating position, both the control lever 5 and the pretensioner 8 operate according to their original function and the control auxiliary lever 15 is not connected to the balance structure 1.

By operating the lever 12 in the correct direction, the auxiliary lever 10 of the pretensioner 8 raises the control lever 5 as far as it will go, for example, to the front 5 of the transmission 9, whereby the balance structure 1 is in retrospect, the control auxiliary lever 15 engages. The adjusting weight 17 is set so that at the point of engagement with the tongue 10 6, the control auxiliary lever 15 has a value equal to twice the error margin and the weighting plate 2 has a weight corresponding to the nominal value minus the error margin.

If the mass of the portion deviates from the nominal value within the margin of error, the tongue 6 rests on the control auxiliary lever 15 whose retrograde force maintains the balance structure 1 in an equilibrium position. If the weight of the portion exceeds the nominal value beyond the margin of error, the tongue 6 lifts the control auxiliary lever 15 from the stop 16 and the balance structure 1 tilts to the extreme position of the receiving body 3. If the weight of the portion is less than the nominal value, the tongue 6 leaves the control auxiliary lever 15 to the extreme position of the weighing device 2 towards the weighing plate 2.

After checking the release lever 12, the spring 11 returns both the pretensioner 8 and the control lever 5 to their original position.

Due to the mode of operation described in the case of doses within the margin of error, the balance structure 1 is adjusted to the equilibrium position without vibration and quickly.

Due to the design of the invention, accessibility is not a problem either, since the lever 12 and the pointer 18 are generally placed in an accessible position.

The invention is also substantially equivalent to the exemplary embodiment, wherein the auxiliary control lever 15 is predictably coupled to the balance structure 1, the difference being that the weight plate 2 has a mass corresponding to the nominal value plus the margin of error.

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Due to the mode of operation, the transducer 19, 20 sensing the two extreme positions of the balance structure 1, which provides other modes of evaluation (light signal, acoustic signal, etc.), is very advantageous.

Also, due to the mode of operation, it is advantageous to have a power / electrical transducer 23 (U / F) properly arranged in the control auxiliary arm 15, the output of which is connected to an evaluation device 24. When tested, the input 23 (U / F) of the power / electric transducer is connected to the tongue 6, which results in a signal proportional to the nominal value of its output, which is processed by the evaluator 24.

Advantageous embodiments provide the possibility of remote control and automation of the inspection and correction process, for example, first, a pneumatic actuator 21 is assigned to the lever 12, and then a controllable actuator 22 is provided on the control lever 5 for actuating the sliding weight 7. Particularly preferred is the embodiment in which the adjustable actuator 22 is pneumatic or electrically actuated and is adapted to continuously adjust the thrust weight 7.

The main advantage of the dispensing scale according to the invention is its simplicity, that is, that it achieves its primary purpose by incorporating relatively few additional and simple elements, partly by extending the function of the previously required elements and modifying their connection.

A special advantage of its application is that the control is carried out simply and conveniently in the most convenient way, directly on the metering scale. However, the duration of the inspection is very short and does not require any expertise on the part of the operator and there is no possibility of faulty handling.

The advantage of the present invention is that it offers a wide range of evaluation, remote control, and automation capabilities, both for performing control and corrective interventions, which may be a primary requirement for high or difficult to access metering scales.

Claims (6)

Claims Weighing scale with a quick-checking mechanism having a mechanical balance structure with a constant equilibrium position, a control lever connected to the balance structure and a pretensioner connected to the control lever, characterized in that the support arm of the control lever (5) is formed by 15 (5) is provided with a control lever (15) for engagement with the balance structure (1), pivotally mounted about an axis (14), and having an adjusting weight (17), and a pretensioner (8) connected to the control lever (5). it is provided with an auxiliary lift (10) and an outrigger lever (12). The dosing scale according to claim 1, characterized in that transducers (19, 20) for sensing the two extreme positions of the scale structure (1) are assigned to the balance structure (1). A dosing balance according to claim 1, characterized in that a power / electric (U / F) signal converter (23) is provided in the control auxiliary arm (15), the output of which is connected to an evaluation instrument (24). 4. A dosing balance according to any one of the preceding claims, characterized in that a pneumatic actuator (21) is associated with the lifting arm (12) of the pretensioner (8). 5. A dosing balance according to any one of claims 1 to 3, characterized in that a control actuator (22) is arranged on the control lever (5) in connection with the actuating lever (7). The dosing scale according to claim 5, characterized in that the adjustable adjusting means (22) is pneumatic or electrically operated and is adapted to continuously adjust the pushing weight (7).