DE102009002841A1 - Insulated tea/coffee jug has an oscillator and oscillation receiver at the outer walls of the glass container linked to a display to show the filling level - Google Patents

Abstract

The insulated tea or coffee jug (10) has a hollow glass container (1) in a housing (2) with a filling level indicator (5). The indicator has an oscillator (3) and an oscillation receiver (4), both as piezo elements at the diametrically opposing outer sides of the container. The assembly has a display (5.2) and/or transmitter and a voltage supply (5.3).

Description

The The invention relates to a method for non-contact level measurement in beverage containers, especially in a Vacuum jug or bottle.

jugs, which are used for example for tea or coffee, usually have a mirrored inner container element made of glass, in an outer casing is stored. Already the mirroring does not allow a look into it Interior of the container. Also, the outer case mostly made of opaque plastic. A level indicator is particularly desirable for use in catering, for example in a hotel breakfast room. Instead of having to ask every guest, could the staff at an outside attached to the pot Fill level indicator directly detect whether to be refilled got to. Level indicators that work with float elements, are for hygienic reasons just in the gastronomy unacceptable.

From the DE 10121444 A1 An insulating jug is known, in which a temperature sensor is arranged in the lid and in which pressure sensors in the form of piezo elements are arranged below the inner container element or below the bottom surface of the entire jug, via which the weight of the container is determined and by a display unit as a filling level signal is shown. A contact of sensors with the interior of the inner container element and with the liquid does not take place.

It it has been shown that the known level indicator though is suitable to the states "empty" or "full" signal that finer gradations of level over the weight measurement but especially not possible is when the inner container is just a small filling volume having. This results in fact in an arrangement the weight sensors under the bottom of the outer housing the problem that the mass of liquid within the Container too small in relation to the total weight of the vacuum jug is and so mass changes by a liquid extraction lie in the range of measurement inaccuracies. Just pitchers with small Volume but for the purposes mentioned in the catering used.

The same Not only for small pitchers, but also for those with heavy outer housings made of stainless steel or similar. Again, the ratio of the weight of the Fluidsportion inside unfavorable to the total weight.

The in the cited document also disclosed arrangement of the weight sensors below the inner container is even more inaccurate because this elastic at least in the area of a bottle neck with the outside housing must be connected. A loose suspension the internal glass bulb is not possible because then when pouring the liquid into the space between inner containers outside housing would run. Through the connection is a weight measurement only the inner container not possible.

In order to arises as an object of the invention to provide a method with the level in a jug or a Vacuum flask can be measured without contact more accurate.

These The object is achieved by a method having the features of the claim 1 solved.

The Measuring method according to the invention is based on a Vibration excitation of the container element containing the liquid contains, and the measurement of the due to the filling damped vibration. She is independent of the container shape feasible.

It will receive no signal that is directly proportional to the Level is. Due to the inventively provided Comparison of the recorded oscillation signal with a table of values, in the empirical values for the vibration behavior of the inner container at different levels are stored, can the fact neuter level determined within the container and on a display unit be signaled.

alternative or in addition, the level can also over a transmitting device transmitted to an external receiver become. The accuracy depends on the sharpness the recorded vibration signal and the fineness of the grid the values stored in the correlation table.

Of the Vibration generator may be formed by a device, in who strikes a clapper on the inner container, for example, in the manner of a bell. The vibration receiver may be formed by a plunger coil, which on an outer housing is fixed and an anchor guided therein, the firm is coupled to the oscillating container wall.

Especially It is advantageous, however, piezoelectric elements alike to use as a vibrator and as a vibration sensor, Since these are available inexpensively, a small Own size and just for the small, occurring in a swinging glass container Amplitudes are suitable.

to Increasing the accuracy of measurement is in use of piezo elements, which are system-dependent actuator and also sensor can, advantageously, perform a second measurement and the result obtained with that from the first measurement to mediate. In the second measurement process, the second piezoelectric element used as a transmitter and the first piezo element as a receiver, so that influences the measurement resulting from the arrangement of transmitter and receiver or the individual characteristics, can be largely eliminated. The simultaneous Use as a sensor and as an actuator is a significant advantage of the piezo elements used.

Especially It is advantageous if the first and the second piezoelectric element be arranged diametrically opposite, so that a largely symmetrical propagation of the oscillations between Sender and receiver can result.

By The use of identical piezoelectric elements are influences minimizes the individual characteristics.

In a further embodiment of the invention Method is provided that the frequency of the reference oscillation until reaching the natural frequency of the container element is varied continuously. For detecting the achievement of the natural frequency a threshold amplitude is defined, which is above the normal amplitudes the reflected vibrations at all levels lies in the container element.

By the amplitude gain will increase the received signal, and the recorded measurement signals are sharper. The measurement at a vibration excitation according to the natural frequency is done very briefly to reduce energy consumption for the vibration excitation to keep low and destruction of the inner container element, just when a container element made of glass is used the invention is to provide a beverage container, with which the level can be measured without contact can.

• – ein inneres hohles Behälterelement,
• – einer Füllstandsmesseinrichtung mit wenigstens einem Schwingungserzeuger und einem Schwingungsaufnehmer, die jeweils schallhart an die Außenseite des Behälterelements angekoppelt sind,
• – einer Anzeigeeinrichtung und/oder einer Sendereinrichtung, und
• – einer Spannungsversorgungseinrichtung.

As a solution according to the invention, a beverage container is specified, which comprises at least:

• An inner hollow container element,
• A fill level measuring device having at least one vibration generator and a vibration pickup, each of which is coupled to the outside of the container element in a reverberant sound,
• A display device and / or a transmitter device, and
• - a power supply device.

at the container element is preferably a Glass flask of an insulated jug or bottle; is the base element while the outer casing, in which the glass bulb is stored.

Prefers are piezo elements as vibration generators and as vibration transducers intended. It is advantageous, as already above in connection explained with the method according to the invention, if the piezo elements are identical in pairs and the first and arranged the second piezoelectric element diametrically opposite become.

The preferred arrangement of the piezoelectric elements is such that in one Part of spherical body of the inner Container element, the first piezoelectric element in the bottom region is arranged and the second piezo element next to a bottleneck is arranged.

Around to perform the measurement with different frequencies can, in particular in the range of natural frequency and thus to come to an amplitude gain can a vibration modulation device be provided with the the frequency of the reference oscillation is variable.

Preferably is at the beverage container at least one operating element for triggering the measuring process and switching on the display device and / or the transmitting device. Through an energy-saving circuit After a certain period of time, the measuring electronics can enter a standby state from which they are actuated by operating the control element is awakened.

For It is advantageous to use it in hotels and restaurants, a radio communication module for connecting the level measuring device with an external Level monitoring system for beverage containers provided. This allows the staff to be informed automatically. The information that a lot of empty beverage containers is present, can also be given directly to a coffee machine to initiate a brewing process.

The Invention will become more apparent hereinafter with reference to the drawings explained.

The 1 shows a schematic representation of a beverage container 10 consisting of a glass bulb 1 and an outer casing 2 , A measuring device 5 is shown depicting it for better illustration, but is in a real version in the outer housing 2 integrated or firmly connected.

In the bottom area is a first piezoelectric element 3 arranged. In the area of a neck of the flask 1 is a second piezo element 4 arranged. Both piezo elements 3 . 4 are with a modulation device 5.6 connected via the voltage of a certain frequency alternately to one of the piezoelectric elements 3 . 4 is created. That of the first piezoelectric element 3 excited vibration transmits over the body of the glass bulb 1 on the second piezoelectric element 4 where the vibration in turn generates a voltage that is measured by the measuring device 5 is recorded.

The measured value is from a control unit 5.5 compared with those data that serves as a correlation table in a storage unit 5.4 are stored. For this purpose, the measured value is first classified in the grid, with which the empirical values have been recorded, and it is then z. For example, the level value associated with the nearest grid value is fetched, or it is grouped into an interval between two grid values, and the level value is interpolated from two stored values.

The level value thus determined is via a display driver unit 5.7 to the output form of a graphical display 5.2 customized. This can be a progress bar display, as in 1 shown. Also possible are LCD displays with 7-segment displays to display a level value, either in milliliters or as a percentage.

A push button 5.1 is provided as a control to trigger a measurement and / or the display 5.2 to acti vieren and / or the measuring device 5 to wake from hibernation. The power supply is via a battery 5.3 or a battery that can be charged, for example, by a solar cell.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10121444 A1 [0003]

Claims (18)

Method for level measurement in beverage containers ( 10 ), in particular for a jug or bottle, comprising the following steps: - generation of a reference vibration with a vibration generator ( 3 ) mounted on a container element ( 1 ), - measuring a reflected vibration by recording a voltage at a vibration sensor ( 4 ) connected to the outside of the container element ( 1 ), - Comparison of the amplitude of the reflected oscillation with a correlation table and derivation of a filling level value thereof for the filling level in the container element ( 1 ). A method according to claim 1, characterized in that the vibration generator by a first piezoelectric element ( 3 ) is formed and the reference vibration by applying a voltage to the first piezoelectric element ( 3 ) is produced. Method according to claim 2, characterized in that that the vibration sensor is formed by a second piezoelectric element is. A method according to claim 3, characterized in that in a second measuring operation, the second piezoelectric element ( 3 ) as transmitter and the first piezo element ( 4 ) is used as a receiver. Method according to one of claims 3 or 4, characterized in that identical piezoelectric elements ( 3 . 4 ) can be used as transmitter and as receiver. Method according to one of claims 1 to 5, characterized in that the vibration generator and the Vibration sensor arranged diametrically opposite become. Method according to one of claims 1 to 6, characterized in that the frequency and / or amplitude of the reference oscillation until reaching the natural frequency of the container element ( 1 ) is varied continuously. Method according to claim 7, characterized in that that defines a limiting amplitude for the detection of the natural frequency which is above the amplitudes of the reflected vibrations outside the natural frequency at all levels lies in the container element. Method according to one of claims 1 to 8, characterized in that a container element ( 1 ) of glass is used. Beverage containers ( 10 ), in particular jug or bottle, with a level indicator, comprising at least: - a hollow container element ( 1 ), - a level measuring device ( 5 ) with at least one vibrator ( 3 ) and a vibration sensor ( 4 ), each hard-sounding to the outside of the container element ( 1 ), - a display device ( 5.2 ) and / or a transmitter device, and - a voltage supply device ( 5.3 ). Beverage containers ( 10 ) according to claim 10, characterized in that the vibration generator ( 3 ) and the vibration sensor ( 4 ) each by a piezoelectric element ( 3 . 4 ) are formed. Drinks container according to claim 11, according to claim 2, characterized in that the piezoelectric elements ( 3 . 4 ) are identical in pairs. Drinks container according to one of claims 10 to 12, characterized in that the vibration generator ( 3 ) and the vibration sensor ( 4 ) are arranged diametrically opposite. Drinks container according to one of claims 10 to 13, characterized in that the container element is a glass bulb ( 1 ) is an insulating jug or bottle, which in an outer housing ( 2 ) is stored. Beverage containers ( 10 ) according to one of claims 10 to 14, characterized in that the container element ( 1 ) a spherical segment-shaped partial body, in whose bottom region the first piezoelectric element ( 3 ) is arranged and on which the second piezoelectric element ( 4 ) is arranged next to a bottleneck. Beverage containers ( 10 ) according to one of claims 10 to 15, characterized by a modulation device ( 5.6 ), with which the frequency and / or the amplitude of the reference oscillation is variable. Beverage containers ( 10 ) according to one of claims 10 to 17, characterized by at least one operating element ( 5.1 ) for triggering the measuring process and switching on the display device ( 5.2 ) and / or the transmitting device. Beverage containers ( 10 ) according to one of claims 10 to 17, characterized by a radio communication module for connecting the level measuring device ( 5 ) with an external level monitoring system for beverage containers.