DE102004017560B4 - Level gauge for bottles - Google Patents

Abstract

Level gauge with
1.1. a transmitter (5, 15, 25) arranged or arrangeable above the surface of a filling material (4, 14, 24), with which a signal (7, 17, 27) can be emitted in the direction of the surface of the filling material (4, 14, 24) is
1.2. a receiver (6, 16, 26) which is arranged or can be arranged above the surface of the filling material (4, 14, 24) and which is emitted by the transmitter (5, 15, 25) and at the surface of the filling material (4, 14, 24) reflected signals (8, 18) are detectable,
1.3. a controller for the transmitter (5, 15, 25),
1.4. a device for determining the transit time of a signal emitted by the transmitter (5, 15, 25), reflected on the surface of the medium (4, 14, 24) and detected in the receiver (6, 16, 26), and
1.5. an evaluation unit for determining the level of this run time,
characterized in that
the level gauge (20) on the opening of bottles (21) can be placed, ...

Description

The The invention relates to a level gauge according to the preamble of claim 1.

In Many private as well as commercial areas, it is appropriate to the level a container contactless to eat. Here are various level indicators use.

So are in the US 4,448,207 and the DE 100 09 406 C2 Level meter described in which above the surface of a filling material located in a container, a transmitter and a receiver are arranged side by side. During operation of this level gauge, a signal is emitted by the transmitter, which is reflected on the surface of the filling material, wherein the reflected signals are detected by the receiver. The determination of the level in the container is carried out by evaluating the duration of the signals from leaving the transmitter to the detection of the reflected signal in the receiver. As a further prior art, the DE 195 11 234 A1 , DE-AS 1 150 214, the DE 101 08 218 A1 , the GB 2 357 617 A and the US 4,811,595 called.

In order to in a juxtaposition of transmitter and receiver the on the surface of the filling material reflected waves reach the receiver can, must according to the radiation characteristics of the transmitter and the Directivity of the receiver a minimum distance between the transmitter or receiver and the surface of the filling material be respected. Is the level gauge arranged directly on the upper edge of the container, As a result, the container will not be completely filled can, because otherwise the said minimum distance is not respected would. moreover requires the juxtaposition of transmitter and receiver one relatively high space requirement of the level gauge in width. As a result, such a level gauge can in tight container openings, e.g. tight bottlenecks or the like, are not used.

Like in the DE 100 09 406 C2 cited, this space requirement can be reduced in width by using only one signal converter, which serves as transmitter and receiver. However, since a transmitter always resonates for a certain amount of time, the signal converter is not ready to receive in its function as a receiver immediately after transmission of the signal, but the decay of the ringing processes must first be awaited. This in turn requires an even greater minimum distance between the transmitter or receiver and the surface of the contents as in juxtaposition of separate transmitter and receiver units. When using ultrasonic signals customary in level measurement, minimum distances in the range of a few decimetres result.

Of the The invention is therefore based on the problem, a level gauge to disposal to provide at which the required minimum distance between Transmitter or receiver and the surface of the contents is reduced and which also a small footprint in the Has width, so the level gauge Can be placed on bottles.

This Problem is solved by the invention a level gauge with the features of claim 1.

The The idea underlying the invention is either the transmitter over or under the receiver to arrange. In this way results over a level gauge with a next the transmitter arranged receiver a reduced space requirement of the level gauge in the width, without an increase the minimum distance between the transmitter or receiver and the surface of the filling material associated with it. About that In addition, less interference reflections occur on, whereby the detection of the reflected surface of the product facilitates signals is. This results in comparison to level knives with an addition the transmitter arranged receiver a further reduction of the minimum distance between transmitter and receiver and the surface of the contents. Furthermore, the level gauge with a control for the Transmitter and with a device for determining the transit time one emitted by the transmitter, reflected on the surface of the filling material and from receiver detected signal. The determination of the concrete filling level in the container to be measured takes place on the basis of the running time in an evaluation unit.

A embodiment the invention provides that the transmitter and its control and the receiver for the Transmission or reception of ultrasound signals, in particular of ultrasonic wave packets. In this case the minimum distance is between the surface of the contents and in the level meter according to the invention arranged receiver or transmitter, whichever is closer to the surface of the filling material is only about 3 cm.

In a preferred embodiment variant of the invention, the device for determining the transit time of one emitted by the transmitter, at the Surface of the contents reflected and detected by the receiver signal substantially from a timing device, in which by sending a signal from the transmitter, the time measuring operation can be started, and connected to a comparator connected to the receiver Oparationsverstärker, which in the detection of the surface of the Filled reflected signal provides a stop signal with which the measuring process can be stopped in the time measuring device. Furthermore, it is advantageous if the determined level of the container can be read directly on the level gauge. In a preferred embodiment of the level meter according to the invention, therefore, a display for the determined level of the container is provided.

A Further development of the invention provides that the evaluation unit for determining the filling level of the container from the term of a transmitter emitted, on the surface of the filling material reflected and in the receiver detected signal consists essentially of an EPROM memory. In this is the determined running time associated with a level of the container. If comfortable, an absolute capacity should be determined, takes place in an advantageous embodiment of the invention also an inclusion of the storable in the EPROM memory Geometry data of the container to be measured.

A Another embodiment variant of the invention provides that the Transmitter is controlled by the controller by means of square wave signals, in particular rectangular signals with a frequency of 30-45 kHz are used, which are formed for example from five periods. The square wave signals can but also a much higher one Frequency of e.g. 1 MHz or greater.

In a particular embodiment variant of the level meter according to the invention is this on the opening can be placed on bottles so that it is mobile and flexible can be.

A Further development of the invention further provides that in the evaluation unit Data for relative and / or absolute level determination for various container are storable. Advantageously, furthermore, a selector switch or the like to vote the level gauge on the to be measured container provided during its operation the suitable data stored in the evaluation unit for evaluation the maturities are used. In this way, the level gauge used flexibly in various containers become.

in the Below, the invention will be explained in more detail with reference to figures. It demonstrate

1a Working principle of juxtaposed transmitter and receiver, which forms the prior art,

1b inventive superposition of transmitter and receiver,

2 Embodiment of a level meter for bottle-like container according to the invention.

1a shows the state of the art in which a transmitter 5 next to a receiver 6 located, and both above the surface of a filling 4 are arranged. The transmitter 5 emitted signals 7 become on the surface of the contents 4 reflected. These reflected signals are then received by the receiver 6 detected. As stated above, this arrangement of transmitter and receiver requires a minimum distance 9 between the surface of the filling material 4 and the transmitter 5 or the recipient 6 ,

In 1b is a possible arrangement of transmitters 15 and receiver 16 represented in the level meter according to the invention. The transmitter 15 is over the receiver 16 arranged. The transmitter 15 in the direction of the surface of the filling 14 emitted signals 17 arrive partly at the receiver 16 past the surface of the contents 14 where they are reflected. The signals reflected at the product surface 18 arrive in the receiver 16 where they are detected. By the superposition of transmitter 15 and receiver 16 the level meter according to the invention can be made narrower. In addition, the minimum distance falls 19 between the surface of the contents and the receiver 16 significantly lower than in the case of juxtaposed transmitter and receiver. It does not matter if the transmitter is located above the receiver or the receiver above the transmitter.

2 shows an embodiment of the invention in which the level gauge is designed to determine the level in bottle-like containers. In the level gauge for bottles 21 is again the transmitter 25 over the receiver 26 arranged. The transmitter 25 in the direction of the bottle 21 located filling material 24 emitted signals 27 again arrive partially at the receiver 26 past the surface of the contents 24 , are reflected there and get into the receiver 26 , The reflected signals are not in this illustration for the sake of clarity played.

For fixing the level gauge 20 at the bottle 21 this is with support surfaces 23 provided with which the level gauge 20 at the bottleneck 22 supported. The distance between opposing support surfaces, or in the case of a continuous support surface of the diameter of the support ring, can be made fixed or variable, so that the level indicator for bottles 21 can be flexibly adapted to different bottle neck diameters.

Not in 2 shown is the control for the transmitter 25 , means for determining the duration of one of the sender 25 emitted, on the surface of the medium 24 reflected and in the receiver 26 detected signal and the evaluation unit for determining the level in the container from this period.

4

filling

5

transmitter

6

receiver

7

from Transmitter emitted signal

8th

at Product surface reflected it signal

9

minimum distance Level gauge - product surface

14

filling

15

transmitter

16

receiver

17

from Transmitter emitted signal

18

at Product surface reflected signal

19

minimum distance Level gauge - product surface

20

level meter for bottles

21

Container, bottle

22

bottleneck

23

supporting

24

filling

25

transmitter

26

receiver

27

from Transmitter emitted signal

Claims (9)

Level gauge with 1.1. one above the surface of a medium ( 4 . 14 . 24 ) arranged or arranged transmitter ( 5 . 15 . 25 ), with which a signal ( 7 . 17 . 27 ) in the direction of the surface of the medium ( 4 . 14 . 24 ), 1.2. one above the surface of the medium ( 4 . 14 . 24 ) arranged or arrangeable receivers ( 6 . 16 . 26 ), from which the transmitter ( 5 . 15 . 25 ) and at the surface of the medium ( 4 . 14 . 24 ) reflected signals ( 8th . 18 ) are detectable, 1.3. a control for the transmitter ( 5 . 15 . 25 1.4. a device for determining the transit time of a transmitter ( 5 . 15 . 25 ), at the surface of the medium ( 4 . 14 . 24 ) and in the receiver ( 6 . 16 . 26 ) detected signal, and 1.5. an evaluation unit for determining the level of this run time, characterized in that the level gauge ( 20 ) on the opening of bottles ( 21 ) is placed, wherein the level gauge ( 20 ) Support surfaces ( 23 ) has, which are designed such, the level gauge ( 20 ) at a bottleneck ( 22 ) and that the transmitter ( 5 . 15 . 25 ) above the receiver ( 6 . 16 . 26 ) and in a plan view from above the receiver ( 6 . 16 . 26 ) within the vertical projection of the transmitter ( 5 . 15 . 25 ) or that the recipient ( 6 . 16 . 26 ) above the transmitter ( 5 . 15 . 25 ) and in a plan view from above the transmitter ( 5 . 15 . 25 ) within the vertical projection of the receiver ( 6 . 16 . 26 ) is arranged. Level gauge according to claim 1, characterized in that the transmitter ( 5 . 15 . 25 ) and its controller as well as the receiver ( 6 . 16 . 26 ) are designed for the transmission or reception of ultrasonic signals, in particular of ultrasonic wave packets. Level gauge according to claim 1 or 2, characterized in that the means for determining the transit time consists essentially of a time measuring device which by sending a signal from the transmitter ( 5 . 15 . 25 ) is bootable, and from a connected as a comparator, with the receiver ( 6 . 16 . 26 ) associated operational amplifier, which upon detection of the surface of the medium reflected signal ( 8th . 18 ) provides a stop signal with which the timing device is stoppable. level meter after one. the claims 1 to 3, characterized in that an indicator for the level is provided. level meter according to one of the claims 1 to 4, characterized in that the evaluation unit substantially consists of an EPROM memory. Level gauge according to one of claims 1 to 5, characterized in that the transmitter ( 5 . 15 . 25 ) can be controlled by the control by means of square-wave signals, in particular by means of square-wave signals with a frequency of 40 kHz. Level meter according to one of claims 1 to 6, characterized in that in the evaluation unit data for filling level detection for different containers ( 21 ) are storable. Level meter according to one of claims 1 to 7, characterized in that a selector switch for tuning the level gauge ( 20 ) on the container to be measured ( 21 ) is provided. Level gauge according to one of claims 1 to 8, characterized in that transmitter ( 5 . 15 . 25 ) and receiver ( 6 . 16 . 26 ) are dimensioned and arranged in such a way that that of the transmitter ( 5 . 15 . 25 ) in the direction of the surface of the medium ( 4 . 14 . 24 ) emitted signals ( 7 . 17 . 27 ) at least partially at the recipient ( 6 . 16 . 26 ) over to the surface of the product ( 4 . 14 . 24 ), or that at the surface of the medium ( 4 . 14 . 24 ) reflected signals ( 8th . 18 ) at least partially on the transmitter ( 5 . 15 . 25 ) to the receiver ( 6 . 16 . 26 ) reach.