FI106571B - Improving rinsing safety at a urinal - Google Patents

Abstract

This invention relates to a method for maintaining the reliable operation of a sensor detecting a need for flushing a urinal (10). According to the invention, urine stone and/or other such dirt adhered over the area of the flushing-need detecting sensor within the liquid basin of the urinal (10) is removed by means of a vibrator operating over this particular area. In a preferred case, the sensor comprises for example a piezoelectric crystal. In one embodiment of the invention, the sensor is adapted to vibrate by means of a piezoelectric crystal. In a second preferred embodiment, said piezoelectric crystal is set in the immediate vicinity of the sensor, thereby removing the dirt. <IMAGE>

Description

». · 106571

This invention relates to a method for improving the reliability of urinary flushing, and to a method for improving the reliability of urinal flushing.

Several solutions have been proposed for flushing urinals. Conventional solutions are based on mechanical devices such as taps and push buttons that can be flushed or pressed to flush the urine. A more advanced solution is to rinse the urine-10 automatically after use. To accomplish automatic flushing, various sensors have been developed to identify urinal use and to provide a signal for urinal flushing. One first type of sensor is photocells and radars detecting the presence of a user, which initiates flushing with a certain time delay after the user has entered the path of the beam of light-15. Another type of sensor used is a urine activated sensor. For example, the sensors respond to heat in the urine or to a change in electrical conductivity in the urine fluid. A prerequisite for the use of a transducer to detect changes in electrical conductivity caused by urine is that, in order to function, it must be placed in the fluid contained within the urinary wall or the urinal fluid 20. Another possibility, especially for sensors detecting heat change, is to place the sensor outside the wall of the urinal or its water trap. In such solutions, the uri-. the wall of the beak or its water trap may need to be thinned to improve the sensitivity of the sensor.

One possible sensor solution is disclosed in the same applicant's earlier patent publication FI-99 265, which discloses a sensor that detects oscillation due to incoming urine in the urine or in the fluid contained therein, as a result of which flushing is initiated. Such a sensor can be located outside the wall of the urinal or its water trap. Alternatively, the sensor may be placed in a fluid or water trap at the base of the urinal.

Urine contains mainly water, but the urea itself contains various minerals such as phosphates and waste products. In this publication these substances are called urinary stones. Urinary stone causes problems with the operation of the automatic rigid systems described above to flush the urine. The problems arise because the urethra in question is easily adhered to the inner surface of the urinal tract and the inner surface of the trap, respectively, adversely affecting the function of the sensors attached to the outer surface of the urinal or trap. Further, in the case where the sensors are located inside the urinal or water trap and the sensors come into contact with urine, the urinary stone may adhere to the surface of the sensors, thereby impairing the function and sensitivity of the sensors. In the worst case, the detection sensor may stop working completely when a sufficiently thick layer of urinary stone is adhered to it.

In addition to urinary stone, similar sensory interfering substances may be present in the urinary flushing water. The various minerals in the rinse water may adhere to the surface of the urinal and trap and sensors in a similar manner.

It is an object of the present invention to provide a solution for improving the reliability of urinary flushing by preventing the adherence of urinary stone and other such impurities on the surface of the urinal and water traps and sensors.

The objects of the invention are achieved by placing a vibrator or the like in a suitable position on a urinal or a water trap, which is used regularly to remove impurities from the surface of the urinal, water trap or sensor.

The method of the invention is characterized in that the urinary fluid and / or other similar dirt adhered to the sensor area in the urinary fluid space is removed by a vibrator acting on said area and said sensor being used as said vibrator.

The stiffening device according to the invention is characterized in that the urinary fluid and / or other similar dirt adhered to the sensor area in the urinal fluid space is arranged to be removed by a vibrator and that the vibrator is a piezoelectric crystal arranged to act as said sensor.

The solution according to the invention can prevent the urinary stone and the rinsing water from adhering to urinary surfaces where it impairs the function of the sensors. The solution of the invention can extend the life of the sensors and reduce the need for maintenance of urinal sensors. Further, the solution of the invention can improve the reliability of urinary flushing, which means that the urinary flushing need for urine is detected and performed at the right time.

• ♦ · 3 106571

The invention will now be described with reference to the accompanying drawings, in which Figure 1 illustrates alternative locations of sensors in the urinal water trap and Figure 2 shows the full flush function as a flow chart.

As is known, sensors can be placed in the urinal to detect the need for irrigation of the urinal. Figure 1 shows, by way of example, possible alternative locations for sensors and corresponding vibrators to be placed in the urinal 10 and its water lock 11. According to a first preferred embodiment, the sensors are attached to the outside 12a of the urinal 10 or the water trap 11; 12b. A sensor suitable for such stiffening is, for example, a heat sensor that is sufficiently sensitive to detect urine-induced heat change in the surface of the urinal 10 or the water trap 11 entering the urinal 10. According to a preferred embodiment, the surface of the urinal 10 or the water trap 11 can be thinned at the sensor. Thinning the wall can improve thermal conductivity through the surface 15 of the urinal 10 or the water trap 11, whereby the need for flushing is better detected by the sensor. The adherence of the urethra just at the sensor to the urinal 10 or the water trap 11 can be prevented by placing a vibrator in the immediate vicinity of the sensor. The oscillator may be, for example, a piezo-crystal or the like, to which a signal is applied at a suitable frequency to effect oscillation. The oscillator is actuated according to a preferred embodiment when the urinal 10 is flushed. The oscillator oscillates at a specific frequency, which is caused by the oscillator-induced waves in the flushing water to flush the inside surface of the urinal 10 or the water trap 11 at the sensor, thereby preventing urine. attaching the stone to the sensor on the wall of the urinal 10 or the water trap 11.

According to another preferred embodiment, the sensors measuring the flush need 25 of the urinal 10 are disposed on the inner surface 12c of the urinal 10 or the water trap 11; 12d preferably with their liquids. Such sensors may be, for example, electrically conductive sensors that respond to a change in electrical conductivity caused by fluid in urine 10. Such sensors may be located, for example, in the urinal 10 or in the water trap 11 at a point where the sensors are in contact with the fluid in the urinal 10. The adherence of urinary stone to the sensors can be prevented in such a sequenced manner by providing a vibrator in the immediate vicinity of the sensors which prevents the adherence of the urinary stone and related impurities to the surface of the sensor or sensors. It will be apparent to one skilled in the art that there may be more than one oscillator if there are multiple sensors or are spaced apart so that one oscillator is insufficient to keep said 4106571 sensors clean. Multiple oscillators can also be tracked against one sensor. According to a preferred embodiment, the vibrators may be integrated in the same element with the sensor, as a result of which the vibrator prevents the urinary stone from attaching to the sensor element by causing the element to oscillate at a sufficiently high frequency.

Next, a preferred embodiment of the invention is considered, wherein the piezoelectric crystal serves as a sensor for detecting urinary flushing need. The piezoelectric crystal is arranged to detect the need for flushing of urinal 10 as a result of urinary vibration entering urinal 10. As a result of oscillation 10, the piezoelectric crystal generates a signal which is transmitted to the microprocessor controlling the flushing or the like, which inferred from the level of the signal the need for flushing. Preferably, the signal level is tracked such that the need for erroneous rinses can be minimized. Using a piezoelectric crystal acting as a sensor, it is particularly advantageous to perform sensor rinsing by using the same piezo-electric crystal as a vibrator by, for example, supplying a high frequency signal to remove dirt from the sensor surface. It will be apparent to one skilled in the art that the piezoelectric crystal shown as a sensor may be disposed inside both the urinal 10 and the water trap 11.

One simple solution for controlling urinary flushing and vibrator is to use a microprocessor. The piezoelectric crystal is connected to a microprocessor. In this exemplary embodiment, the piezoelectric crystal functions as both a sensor and a vibrator. According to a preferred embodiment, said piezoelectric crystal is coupled to a processor A / D converter, whereby a signal from a potential sensor is generated, which is compared to a pre-supplied reference level of the microprocessor, based on which a command is made to perform flushing. When rinsing begins, a high frequency signal may be applied to the piezoelectric crystal to effect oscillation. When the piezoelectric crystal vibrates at a sufficiently high frequency, impurities are removed from the sensor surface and new impurities can be prevented from adhering. Thus, the sensitivity of the sensors is maintained for a longer time and the reliability of urinal 10 flushing can be improved. One skilled in the art will recognize that if the vibrator is a separate element from the sensor and is located in the immediate vicinity of the sensor, the vibrator can be used to rinse the sensor wall with rinsing water, thereby removing dirt adhering to the sensor surface.

·; 35 The complete flush cycle is shown as a simple flowchart in Figure 2.

Initially, the system is in a measurement space 21 where the microprocessor reads the signals from the sensor 106571 and compares them to a preset threshold. When urine or the like enters the urinal, the signal from the sensor is changed and the microprocessor detects the need for flushing 22. The microprocessor preferably instructs the vibrator to purge the urine 23 after a suitable delay has elapsed after a suitable delay has elapsed. It will then return to normal measuring mode 21. It will be apparent to one skilled in the art that the flow chart shown is not the only possible solution for the operating cycle of urinary flushing.

It will be apparent to one of ordinary skill in the art that the signal to the vibrator to initiate vibration 10 is timed to begin in accordance with a preferred embodiment after flushing has begun. For example, the microprocessor can be used to adjust the timing of the oscillation as desired.

It will be apparent to one skilled in the art that various embodiments of the invention are not limited to the exemplified embodiments above, but may vary within the scope of the appended claims. For example, the sensors used are not limited to those described above, but any sensor solution suitable for detecting urinary flushing needs can be used as the sensors, preferably incorporating a vibrator according to the invention to keep the sensor clean. The vibrator used may also be any equivalent vibrator other than a piezoelectric crystal. The positions of the sensors and oscillators 20, whose positions in the urinal or its water trap are not tied, depend on various things, such as the shape of the urinal, the sensitivity and type of the sensors, etc.

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Claims (7)

1. Förfarande för att upprätthälla pälitlig function hos en sensor som detekterar spolning i en urinal (10), transducer av att urinsten och / eller annan 25 dell orenhet som fastnat inom sensoromrädet i urinalens (1) varsum lösgörs lösgörs fungerar inom nämnda omräde, och varvid nämnda sensor används som nämnda oscillator. A method for maintaining reliable operation of a sensor for detecting urinary flushing (10), characterized in that urinary (10) fluid is adhered to the sensor region in a fluid state by a vibrator acting on said region 5, and wherein said sensor is used as said vibrator. 2. Förfarande enligt patentkrav 1, a transducer of the att oscillatom används samtidigt som sensorytan spolas med vatten. • · 106571 Method according to Claim 1, characterized in that the vibrator is operated while the surface of the sensor is flushed with water. 3. Förfarande enligt patentkrav 1, a translucent crystal. Method according to claim 1, characterized in that the oscillation 10 is achieved by means of a piezoelectric crystal. 4. Förfarande enligt patentkrav 1, kännetecknat av att oscillatom lösgör urinsten och / eller i give dilu orenhet med hjälp av ultraljud. Method according to Claim 1, characterized in that the vibrator removes urinary stone and / or other similar dirt by means of ultrasound. 5. Arrangement of the function of the upstream function of the detector of the hos en sensor som sphere and the urinal (10), of the rotation of the att urine and / or of the dermal orifice of the urinalens (1) och oscillatom si piezoelectric crystal som anordnats att fungera som Such an oscillator. Arrangement for maintaining reliable operation of a sensor for detecting urinary flushing (10), characterized in that in the fluid state of the urinal (10) the urinary stone and / or other similar dirt adhered to the sensor area is arranged to be removed by a vibrator and the vibrator is a piezoelectric crystal arranged to act as said sensor. Arrangemang enligt patentkrav 5, a transverse pathway to an image oscillatom anordnats att monteras i et watt (11). Arrangement according to Claim 5, characterized in that the vibrator is arranged to be inserted into a water trap (11). Arrangement according to Claim 5, characterized in that the vibrator is! arranged to be placed on the inner surface of the urinal (10). 6 106571 7. Arrangemang enligt patent krav 5, anechoic anterior oscillatom anordnats att monteras nap urinalens (10). »*«. »« «»