DE19624146A1 - In situ self cleaning apparatus for measuring and control units using ultra sound - Google Patents

Abstract

The equipment includes a housing with supply ducts (8) surrounding the measuring and control unit, in which the ultrasonic vibration element and vibration body (5) are so fitted. That a sound results at the surface of the measuring and control unit to be cleaned, during the determining authorised use of the measuring and control unit. The shape and size of the housing (8) corresponds to its function, for the reception of the ultrasonic vibration element and the vibration body (5), and the ultrasonic treatment of the measuring surface emanating from this. The housing is made of any suitable material preferably fine steel.

Description

1. State of the art

Essential components of measuring probes are those for their Function necessary surfaces that are temporary or permanent are in contact with media and their ingredients.

Components and ingredients of media can by Assignment of the active surfaces of the measuring devices Disrupt function. Hence the need for Cleaning these active surfaces.

The cleaning of measuring devices is according to the state of the Technology using external and in-process methods carried out. The measuring probes are used for external cleaning removed from the surrounding medium and cleaned. After Cleaning can further manipulations to restore the function and the process reliability, for example a Component calibration and sterilization may be necessary. External cleanings are time consuming and labor intensive bring problems to the operational security of the Measuring devices measured or influenced process. External cleanings are based on chemical and physical, preferably carried out mechanically.

In-process cleaning is done by interval treatment of the active surfaces of the measuring devices with the Verunreini chemical or special mechanical removal Cleaning systems or by combining several Methods cleaned.

For the user of external and internal component cleaning The following disadvantages result from the prior art:

• 1. Interruption of the process or measurement necessary.
• 2. The probe must be removed and cleaned.
• 3. Readjustment of sensors necessary.
• 4. Use of cleaning chemicals.
• 4.1. Storage and dosing systems for cleaning chemicals necessary.
• 4.2. Influencing the process by cleaning chemicals.  
• 5. Perform sterility problems in sterile processes Removal, cleaning, calibration and reuse of Sensors.
• 6. Increased work and time.
• 7. Reduced process stability during cleaning work.
• 8. Rapid re-pollution from the pollution promoting surface structures.

Another crucial disadvantage of all known, in particular external sensor cleaning is that the Time of cleaning due to reduced performance Component is determined or determined empirically got to.

To ensure the functional reliability of the sensor over time To keep largely constant, the distances between the cleanings kept lower than necessary or redundant systems are used.

2. Object of the invention

The object of the invention is an arrangement for Implementation of a cleaning process for measuring devices to describe which the according to the current status of Technology does not have existing disadvantages.

The object of the invention is achieved by using Ultra sound for in-situ self-cleaning of these measuring devices solved.

The ultrasound is generated and applied in a known manner transfer the active surface of the measuring device so that Prevents contamination or existing contamination be eliminated.

This results in the following for the user of the invention Advantages:

• 1. No interruption of the process necessary.
• 2. No removal and cleaning of the measuring device necessary.
• 3. No re-calibration of measuring equipment necessary.  
• 4. No use of cleaning chemicals.
• 4.1. No storage and dosing systems for Cleaning chemicals necessary.
• 4.2. No impact on the process Cleaning chemicals.
• 5. No sterility problems in sterile processes through removal, cleaning, calibration and reuse of Measuring devices.
• 6. No more work and time.
• 7. No reduced process stability during the Cleaning work.
• 8. No quick re-pollution by those Contamination promoting surface structures.
• 9. Increase the effective performance of the component simultaneous savings of energy and Maintenance costs.

3. Description of the arrangement

The measuring surfaces are exposed to sound during the intended use of the sensor by an ultrasound sounding device, which consists of the ultrasound generator, the vibrating element and the vibrating body ( 5 ).

The vibrating element and vibrating body are integrated in a housing ( 8 ) adapted to the shape and size of the sensor. Within the housing, the vibrating element and vibrating body are arranged in relation to the measuring surface to be sonicated so that an optimal ultrasound transmission takes place. The housing contains corresponding openings ( 9 ) in the area of the active measuring surfaces or measuring units, which allow the sensor to flow freely through the medium. The housing can be double-walled or have channels that contain the leads from the high-frequency generator.

The arrangement is shown in Fig. 1.

Claims (9)

1. Apparatus for in-situ self-cleaning of measuring and control devices by means of ultrasound, characterized in that the measuring and control device is surrounded by a housing in which the ultrasound oscillating element and the oscillating body are attached in such a way that sonication is to be cleaned Surface of the measuring and control device takes place during the intended use of the measuring and control devices. 2. Apparatus for in-situ self-cleaning of measuring and Ultrasonic control devices according to claim 1, characterized, that shape and size of the housing to accommodate its function of ultrasonic vibrating element and the vibrating body and the from these starting ultrasonic treatment of the measuring surfaces corresponds. 3. Apparatus for in-situ self-cleaning of measuring and Control devices using ultrasound according to one of the preceding claims, characterized in that the housing made of any suitable material, preferably stainless steel, can exist. 4. Apparatus for in-situ self-cleaning of measuring and Control devices using ultrasound according to one of the preceding claims, characterized in that the form and size of the sensor adapted housing or can be double-walled. 5. Apparatus for in-situ self-cleaning of measuring and Control devices using ultrasound according to one of the preceding claims, characterized in that the form Single-walled housing adapted to the size and size of the sensor one or more channels for the cable feed of the High frequency voltage to ultrasonic vibrating element and Contains vibrating body.   6. Apparatus for in-situ self-cleaning of measuring and Control devices using ultrasound according to one of the preceding claims, characterized in that the housing adapted to the shape and size of the sensor the sensor to be cleaned within the room in which the medium to be measured is located. 7. Apparatus for in-situ self-cleaning of measuring and Control devices using ultrasound according to one of the preceding claims, characterized in that the Ultrasonic vibrating element and the vibrating body inside of the housing as desired, preferably in parallel or at right angles are arranged to the part of the measuring probe to be sonicated. 8. Apparatus for in-situ self-cleaning of measuring and Control devices using ultrasound according to one of the preceding claims, characterized in that the housing in the area adapted to the shape and size of the sensor of the measuring surfaces or measuring units through corresponding openings is designed so that an exchange between active Sensor surface and surrounding medium takes place. 9. Apparatus for in-situ self-cleaning of measuring and Control devices using ultrasound according to one of the preceding claims, characterized in that the the shape and size of the sensor adapted housing itself as Sonotrode for transmitting the ultrasound to the measuring surface can serve.