DE202019005615U1 - filter - Google Patents

Abstract

Filter with a housing (2) in which a filter cartridge (7) can be provided with the property that the filter (1) is equipped with an RFID reader (10) with an antenna (11), this antenna (11 ) forms a loop at least once around the filter cartridge (7) installed in the housing or around a geometric axial extension along the filter cartridge (7) or largely around it.

Description

The present invention relates to a filter.

In particular, the invention is intended for an air filter, for example, but its application is not limited thereto.

It is known that filters such as air filters and oil filters, among other equipment, are used in compressors to purify any contaminants from the air or oil.

Traditionally, such filters have included a housing with a replaceable filter cartridge.

The fluid to be cleaned flows through the filter cartridge. The filter cartridge holds back the contaminants and the cleaned fluid flows out.

Over time, the filter cartridge becomes saturated with impurities and must be replaced.

This replacement procedure requires opening the filter housing, removing the filter cartridge, and then installing a new filter cartridge.

A common problem with such practices is the inability to collect certain filter cartridge data.

Such data includes, for example: the type of filter cartridge used, the time in use or the time that has elapsed since the filter cartridge was installed, and the total number of hours the filter cartridge has been used.

This information is very useful for optimizing the maintenance and performance of the related equipment.

This data can be captured by the machine operator, but this method would be subject to errors and margins of error. It is therefore preferable to collect this information automatically.

It is an object of this invention to solve at least one of the aforementioned and other disadvantages by providing a filter which enables the aforementioned data to be automatically acquired.

The invention therefore relates to a filter with a housing in which a filter cartridge can be provided with the property that the filter is provided with an RFID reader with an antenna, this antenna looping at least once around the filter cartridge built into the housing or around a geometric axial extent along or largely around the filter cartridge.

A “geometric axial expansion of the filter cartridge” refers to a fictitious expansion of the filter cartridge in its axial direction.

The phrase "around or largely around" is intended to imply that it is not impossible for the antenna to overlap the geometric extent of the filter cartridge for part of the circumference of the loop. For example, it is not impossible for the loop to be indented for a limited segment of the circumference in such a way that it intersects with the geometric extension of the filter cartridge.

One advantage is that the use of the RFID reader with the antenna enables a so-called RFID tag that can be attached to or in the filter cartridge to be read out.

It is known that such RFID tags can contain a large number of data, such as, for example, the type of filter cartridge. This can be, for example, a unique identification code that contains this information.

The RFID reader can read this information using the antenna. In this way it can be determined which filter cartridge is installed in the filter.

Since the RFID reader periodically reads out the RFID tag of the filter cartridge, the useful life of the corresponding filter cartridge in the filter can be determined. By comparing this information with the hours of operation of the machine and the corresponding circumstances during those hours of operation, the actual number of hours the filter cartridge has been used in those specific circumstances can also be determined.

It is not impossible to use an RFID tag on which information can be written with the RFID reader and antenna. This would have the advantage that the RFID tag of the filter cartridge after the removal of the filter cartridge after its use contains a large number of useful information that can be evaluated.

Another significant advantage is that the above-mentioned alignment of the antenna, in which it is looped at least once around the filter cartridge or its geometric extension, is always independent of the position and alignment of the RFID tag on the filter cartridge it is possible that the RFID tag is read out by the antenna.

This also ensures that the maximum range of the antenna, which is the maximum distance at which the RFID tag can be placed in order to read it, is as large as possible.

Since there are many types of filter cartridges with many designs and sizes, this is very important.

This is also independent of the design of the filter itself if the antenna is looped at least once around the filter cartridge or a geometric extension thereof. In other words, this is true of many types of filters in terms of their type, design and size.

The antenna is ideally arranged in a plane perpendicular or almost perpendicular to the axis of symmetry of a built-in filter cartridge.

The expression “almost perpendicular” means a maximum deviation of 15 ° from the mentioned perpendicular direction, preferably a maximum deviation of 10 ° or better 5 ° from the perpendicular direction.

This optimizes the reception of the antenna.

• 1 ist eine schematische perspektivische Darstellung des erfindungsgemäßen Filters;
• 2 zeigt den Querschnitt von 1 mit der Ebene II-II;
• 3 zeigt den in 2 mit F3 angegebenen Querschnitt ausführlicher;
• 4 zeigt einen Querschnitt von 1 mit der Ebene IV-IV;
• 5 zeigt eine alternative Version von 1.

To better illustrate the properties of the invention, some preferred embodiments of a filter according to the invention are described below by way of example and without restrictive character with reference to the accompanying drawings, in which:

• 1 Figure 3 is a schematic perspective view of the filter of the present invention;
• 2 shows the cross section of 1 with level II-II;
• 3 shows the in 2 cross-section indicated with F3 in more detail
• 4th shows a cross section of 1 with level IV-IV;
• 5 shows an alternate version of 1 .

The in 1 filter according to the invention shown schematically and in perspective 1 concerns an air filter. However, the invention is not restricted to this application. It can also be applied to an oil filter, for example.

The filter shown 1 is typically used as an inlet filter for a compressor. Again, this is not the only application of the invention. It could also be used as an outlet filter or as a filter for an expander, vacuum pump, etc.

As in 1 to recognize the filter passes 1 mainly from one housing 2 .

In this example, but not necessarily, the housing contains 2 a pot 3 that with a lid 4th can be locked.

The lid 4th is with the air outlet 5 provided, which is connected to the input of a compressor.

In this example, but not necessarily for the invention, there is a sensor 6th on the housing 2 attached - specific to the lid 4th .

This sensor 6th can be one or more parameters of the fluid (in this example: air) that the filter 1 flows through, determine or measure.

• - Temperatursensor;
• - Drucksensor;
• - Sensor zum Messen des Druckabfalls über der Filterpatrone;
• - Feuchtigkeitssensor.

To this end, the sensor was created 6th equipped with one or more of the following elements:

• - temperature sensor;
• - pressure sensor;
• - Sensor for measuring the pressure drop across the filter cartridge;
• - humidity sensor.

Of course the sensor can 6th also contain other elements for measuring physical parameters.

A sensor like a sensor 6th is also referred to as the “inlet condition sensor”.

2 shows a cross section through the filter 1 .

This figure shows a filter cartridge 7th that are inside the case 2 is provided.

This filter cartridge 7th consists of a filter medium 8th and is with an RFID tag 9 Mistake. This RFID tag 9 contains information about the filter cartridge 7th such as their identification code.

According to the invention, the filter is 1 with an RFID reader 10 and an antenna 11 fitted.

3 clearly shows the antenna.

The antenna 11 forms a loop at least once around the filter cartridge 7th runs around.

The antenna 11 consists of one or more circular loops of a conductor, such as for example a cable or etched conductor tracks on a circuit board.

The exact location of the antenna 11 does not limit the invention as long as the antenna 11 around the filter cartridge 7th or a geometric axial extension of the filter cartridge 7th extends around.

In this example, but not necessarily for the invention, the antenna is 11 in a plane perpendicular or almost perpendicular to the axis of symmetry 12th the filter cartridge 7th arranged.

The antenna 11 in this case extends within the housing 2 where the antenna 11 on the lid 4th is attached. It is using the cover ring 13th on the lid 4th attached.

4th shows the underside of the lid 4th and the position of the antenna 11 .

It would also be possible to use the antenna 11 between lid 4th and pot 3 for example on a flange of the pot 3 on which the lid 4th is appropriate to install.

It is also possible to use the antenna 11 in the housing 2 to integrate. When the case 2 The antenna could be made from molded plastic 11 in the lid 4th or the pot 3 be poured.

It is also possible that the aforementioned sensor 6th in the lid 4th or pot 3 is poured.

In these examples, the electronic components would not be attached to a conventional printed circuit board, but would be glued to a plastic film with printed conductor tracks, which would then also be in the mold for the cover 4th and / or the pot 3 would be poured.

One advantage of such an integration is that the total cost is lower than the sum of the individual parts, ie of the lid 4th and / or pot 3 of the filter housing 2 , Antenna 11 and sensor 6th .

In this case, but not necessarily for the invention, the antenna is 11 coaxial with the filter cartridge 7th appropriate.

The RFID reader 10 contains the antenna 11 as well as the matching circuit 14th .

A suitable connector is used to connect the RFID reader 10 to connect to a computer or similar device and the captured data from the RFID reader 10 read out.

This is where the RFID reader becomes 10 to the sensor mentioned above 6th connected, but it is also possible that the RFID reader 10 Part of the sensor 6th is.

How the filter works 1 is very simple and is shown as follows.

If a filter cartridge 7th in the housing 2 of the filter 1 is used, the RFID reader 10 the RFID tag 9 the filter cartridge 7th read out and the filter cartridge 7th identify.

By periodically reading out the RFID tag 9 can be determined when the filter cartridge 7th should be replaced.

If the RFID reader 10 with the aforementioned sensor 6th is connected or forms a part of it, this information can be sent by the RFID reader 10 along with the data from the sensor 6th read out and processed.

In this way you can also get information about the operating hours and the circumstances under which the filter cartridge 7th was used.

All of this information can be collected and evaluated to improve the performance of the filter 1 and the compressor in general.

It is also possible to have an RFID tag 9 and an RFID reader 10 to use the data storage on the RFID tag 9 enables. This way all the necessary information can be on the RFID tag 9 the filter cartridge 7th get saved. When replacing the filter cartridge 7th the filter cartridge can be returned to the supplier who has the RFID tag 9 can analyze.

5 shows a variant according to 1 where the antenna 11 around the case 2 is arranged around.

While the antenna 11 in 1 inside the case 2 is placed is the antenna 11 in 5 outside the filter 1 placed.

The antenna 11 is simply in the shape of a ring around the case 2 placed around, more precisely around the air outlet on the lid 4th , where also the aforementioned sensor 6th is placed.

Other elements of the filter 1 are identical to the version described above, as they are in the 1 to 4th is shown. Its functionality is also identical.

The present invention is in no way restricted to the embodiments described by way of example and shown in the figures; a filter according to the invention can be implemented in many shapes and sizes without departing from the scope of the invention.

Claims (13)

Filter with a housing (2) in which a filter cartridge (7) can be provided with the property that the filter (1) is equipped with an RFID reader (10) with an antenna (11), this antenna (11 ) forms a loop at least once around the filter cartridge (7) installed in the housing or around a geometric axial extension along the filter cartridge (7) or largely around it. Filter by Claim 1 , characterized in that the antenna (11) is arranged in a plane perpendicular or almost perpendicular to the axis of symmetry (12) of a built-in filter cartridge (7). Filter by Claim 1 or 2 , characterized in that the antenna (11) is attached coaxially to a built-in filter cartridge (7). Filter according to one of the preceding claims, characterized in that the antenna (11) is provided around the housing (2). Filter according to one of the preceding Claims 1 to 3 , characterized in that the antenna (11) is installed inside the housing (2). Filter by Claim 5 , characterized in that the housing (2) consists of a pot (3) with a lid (4) which can be attached to the pot (3), the antenna (11) being attached to the lid (4) . Filter by Claim 5 , characterized in that the housing (2) is made of cast plastic, the antenna (11) being cast in the interior of the lid (4) or the pot (3). Filter according to one of the preceding claims, characterized in that the filter (1) is equipped with a sensor (6) which can determine or measure one or more parameters of the fluid flowing through the filter (1). Filter for one of the Claims 7 and 8th , characterized in that the sensor (6) is cast in the interior of the lid (4) or the pot (3). Filter by Claim 8 or 9 , characterized in that the sensor (6) is provided with one or more of the following elements: temperature sensor, pressure sensor, sensor for measuring the pressure drop across the filter cartridge, moisture sensor, etc. Filter according to one of the preceding Claims 8 to 10 , characterized in that the RFID reader (10) is part of the sensor (6) or is connected to it. Filter according to one of the preceding claims, characterized in that the filter (1) is an inlet filter for a compressor. Filter according to one of the preceding claims, characterized in that the filter (1) is an air filter.

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