DE102006007325A1 - Dish washer`s operating process monitoring device, has transmission and/or reception unit for detection of operating condition of spraying arm to monitor timing distribution of strength of signal, where signal is delivered from transponder - Google Patents

Abstract

The device has a spraying arm (3) that is shifted into a rotation movement, and a transponder system with a transponder (4) and a transmission and/or reception unit (5), where the transponder and the unit are arranged in a rinsing container (2) or in the spraying arm. The unit is formed for the detection of an operating condition of the arm to monitor the timing distribution of strength of signal, where the signal is delivered from the transponder. The wave distribution of the signal strength is detected during rotary motion of the arm.

Description

 The The invention relates to a device for monitoring the operation a dishwasher with a displaceable in a rotary motion spray arm and with a monitoring device for the Rotational movement of the spray arm.

Such a device for monitoring the operation of a dishwasher is from the DE 44 38 036 C2 known. In this, the Sprüharmdrehachse is extended beyond the pivot bearing of the spray arm in the washing out and carries a magnetically non-conductive filter, which is mounted in a non-conductive magnetic filter housing through which the spray arm filtered water is fed. A transmitting device, for example a permanent magnet, a piece of ferromagnetic material, a resonant circuit or metal cams, the monitoring device is mounted on the periphery of the filter. A receiving device of the monitoring device is arranged on the outer wall of the filter housing. The receiving device can be designed as a reed contact, inductive or capacitive proximity switch or Hall sensor. By attaching the monitoring device to the filter or filter housing, which are each made of a magnetically non-conductive material, can be monitored on a magnetic basis, the rotational movement of the filter and the associated spray arm, so that the design of the washing and the pivot bearing of Low-spray in the washing container need not be influenced.

It It is an object of the present invention to provide a device for monitoring the operation of a dishwasher with a rinsing liquor cycle which further develops the state of the art.

These The object is achieved by a device for monitoring according to the features of claim 1. Advantageous embodiments will be apparent from the dependent claims.

In a device according to the invention for monitoring the operation of a dishwasher with one in a Rotary motion displaceable spray arm and with a monitoring device for the Rotational movement of the spray arm is the monitoring device a transponder system having a transponder mounted on the spray arm and one, preferably arranged on the washing container, Transmitting / receiving unit or the transponder preferably on the rinse tank and the transmitting / receiving unit is arranged on the spray arm, wherein the transmitting / receiving unit for detecting the operating state of the spray arm thereto is formed, the time course of the strength of the transponder monitor the signal supplied.

The Induction voltage and thus the weakening of the magnetic field the transmitting / receiving unit depends on the distance between the Transponder and the transmitting / receiving unit. During a rotation of the spray arm the temporal transponder signal shows a wave-shaped course the signal strength. For a fixed spray arm on the other hand, there is a constant course of the signal strength through the transmitting / receiving unit detectable. In this way, a simple distinction between a rotating and a fixed spray arm allows. The number of rotations can by counting the wave crests or alternatively the troughs of the temporal signal from an evaluation unit connected to the transceiver unit be determined. Unlike magnetic based monitors there is no need to send / receive unit in the plane of the rotating spray arm to arrange. The monitoring device according to the invention is therefore particularly suitable for such dishwashers, which over a height-adjustable Dish rack feature.

The Use of a transponder as part of the monitoring device has the further advantage that an active communication of Elements of the monitoring device allows is. Thus, according to a another embodiment the device according to the invention the transponder with at least one sensor for detecting at least an operating size of the dishwasher equipped, wherein the at least one operating size of the Transponder transmittable to the transmitting / receiving unit for further processing is. The sensor can be an integral part of the transponder be.

According to a further embodiment, the sensor is designed to detect at least one of the following variables: temperature of the rinsing liquor in the spray arm, pressure of the rinsing liquor in the spray arm or chemical constituent of one or more ingredients of the rinsing liquor. The operating variables transmitted or transmitted by the transponder to the transceiver unit can be made available to a program controller for controlling the operating sequence of the dishwasher. Thus, for example, by measuring the number of rotations of the rinsing arm at a given pressure and a known temperature of the rinsing liquor, the rinsing progress can be determined. By measuring the pressure and temperature at the point of exit or near the point of exit In addition, the spray arm can be used to determine these operating variables with the greatest possible accuracy.

to Avoiding a magnetic short circuit of the monitoring device is it is useful if the rinse tank off a non-metallic material is formed.

When Transponders come in principle passive transponders without their own power supply into consideration. It is also conceivable, active transponder with its own power supply provided.

One especially reliable Operation is given when the transponder system is to operate with frequencies in the UHF range, especially in a frequency band from 850 to 950 MHz or in a frequency band of 2.4 to 2.5 GHz is.

Around the wavy one Course of signal strength during a rotary movement of the spray arm to be able to detect it is further provided that the transponder away from the axis of rotation of the spray arm is arranged. Greatest possible amplitudes arise from the fact that the transponder in a section of spray arm is arranged, which is furthest away from the axis of rotation. As a result, the recognition and data exchange between transponders and the transmitting / receiving unit facilitates.

It is in a further embodiment provided that an antenna of the transmitting / receiving unit inside of the washing compartment is and the remaining functional components of the transmitting / receiving unit outside of the washing compartment are. This requires no special sealing measures on the housing the transmitting / receiving unit are provided, since this during the Do not operate the dishwasher with rinse liquor is charged.

The Invention will be described below with reference to an embodiment in the figure explained in more detail.

The single FIGURE shows a schematic representation of the top view of a dishwasher 1 with a rinse tank 2 , In a known manner is in the washing 2 a spray arm 3 around a rotation axis 6 rotatably mounted. At the extreme end of a section (arm) of the spray arm 3 is a transponder 4 arranged. The transponder 4 For example, in the spray arm made of a plastic 3 be injected. At the washing container 2 is a corresponding transceiver unit 5 arranged. An antenna 7 the transmitting / receiving unit 5 is inside the rinse tank 2 arranged while the remaining electronics, for example, outside the washing compartment 2 is located.

The induction voltage and thus the weakening of the magnetic field of the transmitting / receiving unit 5 depends on the distance between transponders 4 and the transceiver unit 5 , As a result, during a rotation of the spray arm, the temporal transponder signal shows a wave-shaped course, which of the transmitting / receiving unit 5 the rotation of the spray arm 3 signaled. In contrast, provides a fixed spray arm 3 a constant transponder signal. By monitoring the temporal signal curve so that the state of the spray arm can be determined. In addition to the mere fact of whether the spray arm 3 rotates or not, the rotation speed can be determined by evaluating the temporal waveform further.

The use of a transponder system as a monitoring device for the spray arm enables active communication between the transponder and the transceiver unit 5 , Is in the transponder 4 a sensor integrated to detect an operating variable, eg the temperature of the rinsing liquor in the spray arm, the pressure of the rinsing liquor in the spray arm or the chemical composition of one or more ingredients of the rinsing liquor, so this can or can be determined by the transponder operating variables to the transmitting / receiving unit 5 for further evaluation. Thus, for example, from the number of rotations of the spray arm (determined by the number of wave peaks or troughs of the transponder signal), prevailing in the spray arm pressure and the temperature of the wash liquor in the spray arm Spülbefschritt within a Spülprogrammablaufs determinable. This allows a very precise control of a Spülprogrammablaufs accomplish.

Is the transponder 4 equipped with such a sensor, so the operating variables can be determined significantly more accurate compared to conventional dishwashers, since, for example, the temperature of the wash liquor are determined on dishes and not in Spülflotten cycle. The same applies to the pressure which is usually determined in the vicinity of the sump. The pressure-influencing pipelines and the like are not taken into account in such a conventional measurement.

The data transfer between the transponder 4 and the transceiver unit 5 takes place by means of electromagnetic waves. The transponder 4 consists of a microchip, an antenna and a carrier or housing (not shown).

The communication between the transponder 4 and the transceiver unit 5 works as follows: the sender / receiver unit 5 Depending on the operating frequency of the transponder system generates an electromagnetic field, which is the antenna of the transponder 4 receives. The transponder system used in the context of the present invention preferably operates at frequencies in the UHF range, in particular in a frequency band from 850 to 950 MHz or in a frequency band from 2.4 to 2.5 GHz. In the antenna of the transponder 4 , which serves as a coil, is generated by induction current. This current activates the microchip of the transponder. The induced current also charges a capacitor in a passive transponder, which ensures a permanent power supply to the microchip. In contrast, this assumes a built-in battery with active transponders. Once the microchip is activated, it receives commands modulated by the transceiver. By the transponder 4 an answer to that from the transmitting / receiving unit 5 When the transmitted field is modulated, it transmits from the transmitting / receiving unit 5 requested data.

The Invention allows the provision of a dishwasher, in which the operations on simple manner can be accurately detected. Look through the device to monitor the Operation determined sizes can be a Spülprogrammablauf control according to the situation. Because the use of transponder systems Known from a variety of other fields, these are inexpensive available.

1

dishwasher

2

rinse tank

3

spray arm

4

transponder

5

Transmit / receive unit

6

axis of rotation

7

antenna

Claims (12)

Device for monitoring the operation of a dishwasher with a spray arm which can be moved in a rotational movement and with a monitoring device for the rotational movement of the spray arm ( 3 ), characterized in that the monitoring device is a transponder system which, on the spray arm ( 3 ) arranged transponder ( 4 ) and one, preferably on the washing container ( 2 ), transmitting / receiving unit ( 5 ) or the transponder ( 4 ) preferably on the washing container ( 2 ) and the transceiver unit ( 5 ) on the spray arm ( 3 ), wherein the transmitting / receiving unit ( 5 ) for detecting the operating state of the spray arm ( 3 ) is adapted to the temporal course of the strength of the transponder ( 4 ) to monitor supplied signal. Device according to claim 1, characterized in that during a rotational movement of the spray arm ( 3 ) a wavy course of signal strength and with fixed spray arm ( 3 ) a constant course of the signal strength by the transmitting / receiving unit ( 5 ) is detectable. Device according to claim 1 or 2, characterized in that the transponder ( 4 ) at least one sensor ( 6 ) for detecting at least one operating variable of the dishwasher, wherein the operating variable of the transponder ( 4 ) to the transceiver unit ( 5 ) is transferable for further processing. Device according to claim 3, characterized in that the sensor ( 6 ) is designed to detect at least one of the following operating variables: temperature of the rinsing liquor in the spray arm ( 3 ), or - pressure of the rinsing liquor in the spray arm ( 3 ), or - chemical constituent of one or more ingredients of the rinsing liquor. Device according to one of the preceding claims, characterized in that the washing container ( 2 ) is formed of a non-metallic material. Device according to one of claims 1 to 5, characterized in that the transponder ( 4 ) is a passive transponder without its own power supply. Device according to one of claims 1 to 5, characterized in that the transponder ( 4 ) is an active transponder with its own power supply. Device according to one of the preceding claims, characterized characterized in that the transponder system is for operation with frequencies in the UHF range, in particular in a frequency band from 850 to 950 MHz or in a frequency band of 2.4 to 2.5 GHz is. Device according to one of the preceding claims, characterized in that the transponder ( 4 ) away from the axis of rotation ( 6 ) of the spray arm ( 3 ) is arranged. Device according to claim 9, characterized in that the transponder ( 4 ) in a section of the spray arm ( 3 ) arranged by the Rotation axis ( 6 ) farthest away. Device according to one of the preceding claims, characterized in that an antenna ( 7 ) of the transceiver unit ( 5 ) inside the washing container ( 2 ) and the remaining functional components of the transceiver unit ( 5 ) outside the washing container ( 2 ) are arranged. dishwasher with a device for monitoring the operating sequence according to one of the preceding claims.