NL1014373C1 - System for measuring accurate quantities of liquid in laboratory, using dosing pump coupled to weighing machine to remove excess quantities - Google Patents

Abstract

The beaker (2) containing the liquid is placed on the weighing machine (3). A signal (7) from the weighing machine is compared with a demand signal (10) by the control circuit (4). The excess liquid in the beaker is sucked out of the beaker in fixed doses by a dosing pump (5), until the quantity in the beaker is that which was required.

Description

Brief designation: Device for dosing a liquid flow from a liquid container, as well as a method for dosing a liquid flow from a liquid container.

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The present invention relates to a device for dosing a liquid flow from a liquid container, which device comprises a weighing member, a regulating member and a dosing member, the liquid container being located on the weighing member. The present invention further relates to a method for dosing a liquid flow from the liquid container using a weighing member, a regulating member and a dosing member.

Such a method is known per se from Japanese patent application JP-1-03067311. According to this Japanese patent application 15, a suction pipe of a pump is provided in a liquid container, which is situated on a weighing member, which pump serves for metering the liquid accurately from the liquid container. This pump is also connected to a control device, which control device is correct! e element for the buoyancy of the suction line arranged in the liquid. Such a construction is subject to failure and thus leads in practice to undesired fluctuation in the dosed liquid flow.

An apparatus for accurately dosing a liquid flow from a liquid container using a weighing member, a regulating member and a dosing member is known per se from US patent 4,856,563. This known construction is only applicable if there is a level difference between the liquid container and the dosing member because this system is based on the liquid pressure present in the liquid container. Because during the dosing of the liquid from the liquid container the liquid level present therein will decrease, a correction must be made for a constant dosing of the liquid. Practice has shown that such a system is subject to dose fluctuations. Moreover, with such a system it is not possible to completely empty the liquid container from liquid, because in such a situation the liquid height required for the dosing is insufficient.

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The object of the present invention is to provide an apparatus and a method for dosing a liquid flow from a liquid container, wherein the above-mentioned drawbacks according to the prior art are eliminated.

Another object of the present invention is to provide an apparatus and a method for dosing a liquid flow from a liquid container, wherein the exact dosing of the liquid flow is independent of the temperature and the viscosity of the liquid to be dosed.

Another object of the present invention is to provide an apparatus and a method for dosing a liquid flow from a liquid container, wherein the dosed liquid flow is not adversely affected by the dosing member which is subject to wear in practice.

The device as mentioned in the preamble is characterized according to the present invention in that - the weighing member is provided with means for outputting a measuring signal corresponding to the measured weight, - the dosing member is connected via an input line to the liquid container for receiving of liquid and further a discharge line for dosing the liquid taken up via the input line and means for receiving a control signal, - the control means for receiving the measuring signal output by the weighing means, means for outputting a control signal and means for entering a setting value, wherein the control means compares the measuring signal with the setting value, after which a control signal is determined, which control signal is fed to the metering member and controls the metering member for metering the liquid flow accurately from the liquid container. .

Since the metering device according to the present method is controlled on the basis of the weight of the liquid withdrawn from the liquid container, fluctuations in temperature and consequently in viscosity and density do not adversely affect the precisely dosed liquid flow.

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In a special embodiment it is preferred that the control element is provided with an electronic calculation unit, in particular computer software.

Using such an electronic calculation unit, the dosing of the liquid flow from the liquid container is very accurately possible. In addition, any fluctuations in temperature, and consequently in density and viscosity, can be accurately overcome by minimal processing of minimal changes in the measuring signal output from the weighing device.

The present control member is preferably provided with a display on which the weight can be read visually. The present invention will be applied in particular in laboratories where it is desirable for the laboratory staff that the progress of the liquid dosage is continuously observable. In addition, the display provides the laboratory worker with information on whether to replenish or replace the liquid container.

In order to obtain an accurate dosing of the liquid flow, it is preferred that the present device comprises a continuously adjustable pump as a dosing member. Such a steplessly adjustable pump is in particular desirable to effect an exact dosing of the liquid flow.

In a special embodiment of the present invention, it is preferred that the control member is also provided with means for issuing an alarm signal. Such an alarm signal can for instance be emitted if the liquid present in the liquid container falls below a certain level or if the weighing device gives a measuring signal which deviates considerably from the previously delivered measuring signal, which can for instance take place if the liquid container is suddenly removed from the weighing device taken away. Such an alarm signal warns the employee that a malfunction has occurred in the control loop so that adequate measures can be taken to prevent any damage.

It is further preferred that in the present device the inlet conduit of the dosing member forms a loose connection between the dosing member and the liquid container. Such a construction is particularly desirable in order to prevent any disturbances in the measuring signal delivered by the weighing device 1014373 4. Disturbances should in particular be understood to mean that the inlet pipe is fixed in such a way that it also determines the weight indicated by the weighing member, which is undesirable. In particular, the intended loose connection ensures that only the liquid container and the liquid contained therein are measured by the weighing member, so that any measuring errors as a result of the inlet pipe are eliminated. Moreover, in such a construction, a fluid container can be changed quickly and efficiently without constructional modifications being required.

The present invention further relates to a method for dosing a liquid flow from a liquid container using a weighing member, a regulating member and a dosing member, which method according to the present invention comprises the following steps: - placing the liquid container on the weighing device, - arranging the inlet pipe from the dosing device in the liquid container, - connecting the weighing device to the control device, and - connecting the control device to the dosing device, wherein a control value is imposed on the control member, which control member supplies a control signal to the dosing member, after which liquid is withdrawn from the liquid container and dosed via the discharge line 25 of the dosing member, which liquid dosage generates a measuring signal delivered by the weighing member, which measuring signal is received by the controller and with the setting value de is compared and results in a control signal to the metering member.

The present method is further characterized in that the comparison of the measuring signal with the set value and the calculation of the control signal is carried out via an electronic calculation unit, in particular computer software. According to such a method, an accurate and fast calculation of the control signal is possible. Moreover, such a method provides the possibility of storing data so that this data can be viewed later. In addition, such data can be transferred to a central computer 1 ύ 1 4 3/3 5, after which this data can be used for any further calculations or actions.

The method according to the present invention is further characterized in that the control means emits an alarm signal when the measuring signal delivered by the weighing member falls below a certain value. Such a situation arises in particular when the liquid present in the liquid container falls below a fixed level, so that the laboratory employees are informed in good time. In addition, it is possible for an alarm signal to be issued if the measuring signal delivered by the weighing member shows unacceptable fluctuations with respect to the previously delivered measuring signal.

The present invention will be explained below with reference to an example, however, it should be noted that the present example is not to be regarded as limiting but only as explanation.

Example.

In the accompanying figure, the present device is schematically indicated with reference number 1. The dust container 2 is located on weighing member 3, which weighing member 3 is provided with a display 11 on which the weight of the liquid container 2 can be read. Input line 6 is arranged in liquid container 2, which input line 6 is connected to dosing member 5. The liquid absorbed from liquid holder 2 is discharged via dosing member 5 via discharge line 9. Weighing member 3 is provided with means for outputting a measuring signal 7, which measuring signal 7 is guided to control member 4. Control member 4 is also provided with means for entering a setting value 10 and with means for outputting a control signal 8 to dosing member 5. In control member 4, control signal 8 is obtained by comparing the weighing member 3 measuring signal 7 delivered with the setting value 10. For carrying out the present method, a setting value 10 is introduced into measuring member 4, then metering member 5 is activated. Because dosing member 5 extracts a liquid from liquid container 2, the weighing member 3 will generate a measuring signal 7, which measuring signal 7 is fed to control member 4 and compared there with the setting value 10 entered previously. This calculation, carried out in control member 4, results in a control signal 8 that dosing member 5 activates. Preferably, control element 4 comprises an electronic calculating unit, so that the liquid flow dosed by dosing element 5 via discharge line 9 is accurately set.

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Claims (11)

Device for dosing a liquid flow from a liquid container, which device comprises a weighing member, a control member 5 and a dosing member, the liquid container being located on the weighing member, characterized in that - the weighing member is provided with means for outputting a measuring signal corresponding to the measured weight, - the dosing member is connected via an input line to the liquid container for receiving liquid and further a discharge line for dosing the liquid taken up via the input line and means for receiving a control signal comprises, - the control means comprises means for receiving the measuring signal output by the weighing means, means for outputting a control signal and means for entering a setting value, wherein the control means compares the measuring signal with the setting value, after which a control signal is determined, which control signal to the dosing member is guided and controls the metering member for accurately metering the liquid flow from the liquid container. 2. Device as claimed in claim 1, characterized in that the control member is provided with an electronic calculation unit, in particular computer software. 3. Device as claimed in claims 1-2, characterized in that the control member is provided with a display on which the weight can be read visually. Device as claimed in claims 1-3, characterized in that the dosing member is a steplessly adjustable pump. 5. Device as claimed in claims 1-4, characterized in that the control member is also provided with means for issuing an alarm signal. 6. Device as claimed in claims 1-5, characterized in that the inlet pipe of the dosing member forms a loose connection between the dosing member and the liquid container. Method for dosing a liquid flow from a liquid container using a weighing member, a regulating member and a dosing member, characterized in that the method comprises the following steps: - placing the liquid container on the weighing member, - arranging the liquid container of the inlet pipe originating from the dosing member, - connecting the weighing member to the control member, and - connecting the control member to the dosing member, wherein a control value is imposed on the control member, which control member gives a control signal to the dosing member, after which liquid is withdrawn from the liquid container and dosed via the discharge line of the dosing member, which liquid dosage generates a measuring signal delivered by the weighing member, which measuring signal is received by the control member and is compared with the set value and results in a control signal to the dispenser. Method according to claim 7, characterized in that the comparison of the measuring signal with the set value and the calculation of the control signal is carried out via an electronic calculation unit, in particular computer software. Method according to claims 7-8, characterized in that an alarm signal is issued by the control member when the measuring signal delivered by the weighing member falls below a certain value. 10. A method according to claims 7-9, characterized in that the inlet pipe is arranged in the liquid container such that the weighing member measures only the weight of the liquid container and the liquid present therein. 1. M 3 7 3