DD243102A1 - DEVICE FOR TESTING BOTTLES - Google Patents

Abstract

The invention relates to a device for detecting overfilled and underfilled bottles or unfilled bottles, the remains of cleaning lye or other Rueckstaende have. Such facilities are a prerequisite for the control of bottling plants. The invention is based on the objective to increase the reliability of the system. The object of the invention is to develop a new measuring principle in which the adjacent bottles do not affect the measurement result or only very little. The object is achieved according to the invention in that transmitting or receiving antenna are formed as a slot antenna, both antennas are arranged in height of the liquid level of the bottle and the slots of both antennas on the same side with respect to the bottle and juxtaposed or are arranged one above the other. The slots of the antennas are arranged at an angle of 0 ... 45 to each other. Fig. 1

Description

Field of application of the invention

The invention relates to a device for detecting over- and unfulfilled bottles or unfilled bottles, the residues of cleaning liquor or other residues. Such devices are a prerequisite for the control of bottling plants.

Characteristic of the known technical solutions

From DE-GM 7453640 a solution is known in which on one side of the bottle guide path a radiation source and on the other side a radiation detector is arranged. This device works in the high frequency range. Transmitter and receiver have plate-shaped antennas, which are opposite to the side walls of the bottles with a small distance. If a bottle passes the test area, the radiation detector emits a signal influenced by the fluid. The signal is processed by appropriate means so that an ejector is addressed. The sensitivity of the system is low, so that the reliability is not guaranteed. The cause is that adjacent bottles greatly affect the measurement result.

Object of the invention

The invention is based on the objective to increase the reliability of the system.

Essence of the invention

The object of the invention is to develop a new measuring principle in which the adjacent bottles do not affect the measurement result or only very little. The object is achieved in that transmission or. Receiving antenna is designed as a slot antenna, both antennas are arranged at the level of the liquid level of the bottle and the slots of both antennas on the same side with respect to the bottle and are arranged side by side or one above the other. The slots of the antennas are arranged at an angle of O ... 45 ° to each other.

The solution according to the invention has the advantage that the error caused by the neighboring bottles is lower. The foam of the filled bottle is proportionately in the test result. A further advantage is that all non-metallic, not transparent. Container can be tested.

embodiment

The invention will be explained in more detail with reference to two embodiments. The exemplary embodiments deal with devices for checking the filling state. The corresponding drawings have the following meaning:

Figure 1: Schematic representation of the device in waveguide technology

Figure 2: sectional view of the receiver in waveguide technology

Figure 3: Representation of the transmitter and the receiver in stripline technology

example 1

As can be seen from FIG. 1, the bottle 1 is guided on a bottle guide track. The bottle guide track consists of a chain 2 and a railing 3. The railing 3 opposite a frame 4 is arranged, which carries the function-determining components of the device according to the invention. The frame 4 consists of a metallic material which has a breakthrough formed as a window 5 at the level of the bottle neck. The window 5, which consists of a plastic material, carries a likewise made of a plastic material displaceable plate 6. The inclination of the window 5 and the plate 6 is preferably 1: 6. On the plate 6 transmitter and receiver are arranged. The transmitter consists of a stripline oscillator 7, a low-pass filter 8 and a waveguide 9, which is connected by the flange 10 with the plate 6. The stripline oscillator 7 is connected via a cable 11 to a voltage source, not shown. The structure of the stripline oscillator 7 is shown in Figure 3 and described in more detail in the second example. The receiver, which is shown in more detail in Figure 2, consists of a connected to the plate 6 flange 12, a waveguide 13 and the coupling 14. The coupling 14 is assigned via a cable 15, an evaluation and display unit 30 shown in FIG. FIG. 2 shows a sectional view of the receiver. The internal structure of the transmitter corresponds in principle to that of the receiver, so that only the receiver will be explained in more detail below. The wall 16 with the integrated flange 12 encloses the cavity 17, which is provided with a dielectric filling. The dielectric filling has a dielectric constant which depends on the size of the waveguide profile used. The loss factor must be low. The coupling 14 consists of a diode 18 and a coaxial output 19. The waveguide 9; 13 preferably have a rectangular shape. The transmitting openings or receiving openings are arranged at an angle of O ... 45 ° to each other. Transmitting and receiving openings are shown in Figure 3 and described in Example 2 in more detail. In the frame 4, an inductive proximity switch 20 is disposed above the bottle guide. The arrival of the bottle 1 in the test area is indicated by this proximity switch 20 and thus given a signal to trigger the test procedure. For the operation of the device '·.

By the oscillator 7 is a high-frequency AC voltage of 1.5 to 4GHz, preferably 2.2 GHz, generated and transmitted to the waveguide 9 via the low-pass filter 8. :

The microwaves are decoupled towards the bottleneck. By Verschiebbjarkeit the plate 6 can be ensured that the microwaves hit the surface of the liquid. The microwaves are partially reflected by this, received by the receiver and transmitted to the evaluation and display unit. The frequency is chosen between 1.5 and 4 GHz in order to keep the influence of glass resonances negligibly small and to minimize the influence of neighboring bottles on the measurement result.

Example 2

This example involves the implementation of the inventive stripline technique.

As can be seen from FIG. 3, the components for generating and decoupling the microwaves are arranged on a strip printed circuit board 21. The strip printed circuit board 21 is made of copper-clad board material and includes all the strip-type components belonging to the transmitter or the receiver.

The transmitter consists of the already mentioned in Example 1 stripline oscillator 7, a stripline low-pass filter 22 and a transmitter strip conductor 23. A voltage source 24 supplies the stripline oscillator 7 with energy. The stripline oscillator 7 consists of an oscillator transistor 25, two blocking capacitors 26 and three resistors 27. Each one

- Transformation line 28, the blocking capacitors 26 are connected to the oscillator transistor 25. Between the 4

Oscillator transistor 25 and the stripline low-pass filter 22, an oscillator strip conductor 29 is arranged.

Via a transmission strip conductor 23, the transmission opening is connected to the stripline low-pass filter 22. The transmitting opening is designed as a transmitting slot antenna 31. The width of the transmit slot antenna 31 is about V20 and the length is about half the wavelength used. The receiving aperture formed as a receiving slot antenna 32 has the same dimensions, receiving slot antenna 32 and transmitting slot antenna 31 are approximately parallel to each other at a distance of 30 to 40 mm. For deviations up to 45 ° from parallelism, the system is functional.

The receiving slot antenna is associated with a receiving strip conductor 33, which is connected via a diode output 34 to the evaluation and display unit 30.

The operation of the device corresponds to the solution described in Example 1.

Claims (3)

Invention claim: 1. Device for testing bottles, consisting of A sender and - a receiver to whom   a transmitting or receiving antenna is assigned, - a high-frequency oscillator • for frequencies from 1.5 to 4GHz and - An evaluation, characterized in that The transmitting or receiving antenna is designed as a slot antenna,   both antennas at the level of the liquid level of the bottle (D are arranged and the - Slots of both antennas On the same side with respect to the bottle (1) and   are arranged side by side or one above the other. 2. Device for testing bottles according to item 1, characterized in that the slots of the antennas are arranged at an angle of 0 ... 45 "to each other. For this 3 pages drawings