NL2001383C2 - Air filter for filtering polluted air in cabin within e.g. vehicle, has filter material to filter air, and container for holding filter material, where electronic pressure readout identifiers are provided for identifying air filter - Google Patents

Abstract

The filter (10) has a filter material (30) to filter air, and a container (20) for holding the filter material, where the air filter is fitted with electronic pressure readout identifiers for identifying the air filter. A fan is provided for delivering filtered air, and a detection unit detects the characteristics of contaminated air. Independent claims are also included for the following: (1) a vehicle equipped with a cabin (2) a method for filtering polluted air.

Description

Air filter, device for filtering air, cabin provided with such a filter device and method for filtering air

The present invention relates to an air filter, a device for filtering air, a cabin provided with such a filter device and an improved method for filtering air.

Air filters find their application in various areas. Spaces of various nature, such as spaces in which critical processes are carried out (for example, food preparation, processing of semiconductors, health) or accommodation spaces for people. In particular, air filters are desired in an environment with polluted air. In order to prevent that air filters are not used or used incorrectly, it is desirable to check whether the filtered air actually complies with the set standards, in particular if there is a high risk that the air to be filtered is contaminated with substances that present a hazard. to health.

The object of the present invention is to provide an air filter, a device for at least partially filtering contaminated air, a cabin provided with such a filtering device and an improved method for at least partially filtering contaminated air.

To this end the invention provides an air filter for at least partially filtering contaminated air, the air filter comprising: filter material for filtering air, and a holder for holding the filter material, the air filter also being provided with electronically readable identification means for identify the air filter. By using an air filter which is provided with electronically readable identification means, the identification of an air filter can be observed in an extremely simple electronic manner. This may be useful, for example, to know which air filter is present in a filter device, which air filters are held in stock or which air filters undergo certain operations. By making use of electronically readable identification means, the reading can even take place in certain circumstances without the need to first manipulate or make the air filter accessible. Particularly during the use of an air filter (i.e. usually in the circumstance that the air filter is placed in a filter device) it may be desirable to be able to check the presence of a filter that is correct in the circumstances, but also during processing or transport it may are important to be well informed regarding the identification of the air filters to be processed. All this contributes to a further improvement of the reliability of air filtering, a timely replacement of contaminated / obsolete filters and a guaranteed processing of contaminated air filters. Because the contaminated air can contain various gaseous, liquid or solid contaminants, so that the conditions under which a specific air filter is used (and subsequently processed) can be meaningfully compared to the type of air filter used. By simple and reliable identification of an air filter according to the present invention, the risk of errors is considerably reduced. This leads to an increasing certainty of the use of a correct air filter and of a correct processing of a used air filter. This not only leads to more certainty with regard to the quality of the filtered air (which means that there are fewer health risks and the chance of disruption of sensitive processes is reduced) but also the risk of environmental pollution due to incorrect processing of used air filters. becomes smaller. Another advantage is that all logistical processes that the air filters go through from production, storage, placement, transport, use, removal, transport up to and including processing become simpler due to the presence of the electronic readout identification means.

In a first embodiment, the identification means are electromagnetically readable. Electromagnetically readable identification means are not susceptible to interference, can be realized cheaply and can be designed in such a way that they use little or no energy. Electromagnetically readable identification means can also be of compact design and the position of electromagnetically readable identification means on the air filter has no influence on the reading. No reliable measures usually have to be taken for reliable and fast reading.

In another advantageous embodiment the identification means comprise a transmitter. This then concerns active identification means, with which, by transmitting a signal, the identification means can not only be less susceptible to interference, but also the reading can take place at a great distance from the identification means. Because the signal delivered by the identification means can have a strength as desired, the identification means can be designed such that the influence of any contamination present is small.

In yet another embodiment, the air filter comprises a data storage for storing externally supplied data. As a result, not only can a better check be carried out passively relative to the air filter, information can also be actively supplied to the data storage. This may include, for example, the registration of substances with which an air filter has been in contact and / or other aspects with regard to the course of life (such as the duration, the temperatures under which the filter has gone wrong) of a specific air filter. The data storage can be a storage rigidly connected to the air filter, but can also be, for example, a detachable electronic memory card. Such a memory card can, for example, be made extremely small, is not susceptible to malfunction and can easily be read by various computers.

The invention also relates to a device for actively at least partially filtering contaminated air, comprising: a housing for receiving an air filter, at least one fan for supplying air to be filtered, and read-out means for electronically reading out the identification means of an air filter placed in the housing, which read-out means are assembled with the device. As a result of these measures, an active air treatment system 25 is obtained, wherein it is possible to check in a simple manner what type of air filter is placed. The chance that unnoticed with an incorrect type of air filter is placed in the filter device in certain circumstances can thus be reduced. Further refinement of the checking possibilities offer, for example, the possibility of also checking whether an air filter can still be used in given circumstances.

30

Particularly in highly contaminated conditions, it may be useful to capture different components of different nature and dimensions with separate air filters from the contaminated air. In an advantageous embodiment, the filter device comprises at least two air filters, wherein the air filters comprise filter materials that are different from each other. This makes it possible, for example, to filter air contaminated with several components in an efficient manner.

In particular, it is then desirable to serially pass the air contaminated with several components through different filter materials, whereby, for example, the filter materials also become finer-meshed in the subsequent flow direction. Of course, use can also be made of filter materials which react chemically with various components to be filtered from the air. By providing air filters of at least two mutually different filter materials with specific identification means, it is possible to filter in an efficient and efficient manner, whereby the presence of a plurality of filter materials still makes checking the accuracy of the filter materials present by the present invention simple it can be checked which air filters have been installed with which filter materials or whether they are due for replacement.

In a further advantageous embodiment, the filter device comprises a clock. With this, if a memory is also present at the same time, it can also be tracked for how long the air filter has been placed in the filter device. This can then be compared with the maximum service life and the maximum service life of the air filter. For example, it can be specified that an air filter must be replaced.

An additional check is hereby obtained in a simple manner.

In an advantageous embodiment, the filtering device comprises detection means for detecting the characteristics of the contaminated air to be filtered. By making use of such detection means, it is easy to register which substances are expected to be filtered out of the polluted air. The characteristics of the filtered substances largely determine the contamination and therefore often also the usage time of the air filter. For example, the usage time of a filter device used in an environment where high concentrations of very harmful and / or aggressive substances are detected will be shorter than when it operates in an environment with a lower concentration of less harmful substances. Because the harmful substances are trapped in the air filter, with an increasing concentration of polluting substances caught the risk will increase that the air filter will allow the harmful substances to (partially) pass through or that the harmful substance will escape from the filter device in another way. The contamination of the filter will occur faster at higher concentrations of contamination and the standards for the passage of harmful and / or aggressive substances will usually be stricter than for less harmful substances. In particular, the detection means are embodied such that they exhibit a changing characteristic depending on the contamination of the air filter during use. For example, by comparing the values measured by the detection means with reference data, the status of the air filter can be determined.

In addition to usage time and characteristics of the filtered substances, the amount of air passed also has an important influence on the service life of the air filter. After all, with an equal amount of contamination in the air to be filtered, with a larger air flow the filter will sooner contain the threshold value of contaminated substances than with a smaller air flow. In another advantageous embodiment, the filtering device comprises detection means for detecting the flow of filtered air.

15

In yet another embodiment, the device is provided with a data processing unit. By using a data processing unit, various data can be stored and processed in a simple manner. As a result, the control of the air filter is not only further automated, but the risk of human errors is also reduced. This increases the efficiency and effectiveness of the audit.

In yet another embodiment, the data processing unit comprises a database for reference data. By providing the data processing unit with reference data, it is easy to compare different recorded data with reference data, after which the user can intervene if necessary. For example, the data processing unit can determine that the air filter exceeds the maximum service life indicated by the reference data, for example because the air filter is too old and can no longer be used according to the standard, or the amount of filtered air has exceeded a maximum value, or the amount of at least one captured substance has reached a maximum, after which the user must replace the specific air filter in question.

6

In another advantageous embodiment, the device also comprises communication means for exchanging information (with the environment). As a result, for example, the data processing unit can be placed remotely from the detection means and the read-out means, but the status of the air filter can also be viewed remotely. This not only offers ergonomic advantages to the user of the device, but also provides a possibility for remotely checking the status of the air filter, which again provides more possibilities for checking.

In yet another embodiment, the device comprises a supply channel for supplying air to be filtered and a discharge channel for discharging at least partially filtered air. In this way the device can be efficiently connected to a space, wherein the chance of unfiltered air penetrating into the space is reduced. Although checking the air filter during use reduces the chance of contaminated air entering the space, the presence of contaminated air is further reduced by connecting the device to the space in a correct manner.

The invention also relates to a work space provided with a filter device according to the present invention, wherein the filtered air outlet channel connects to the inside of the work space. The dust and chemical components present in the polluted air can have a negative effect on the quality of production processes. As a result of these measures, it is not only known whether the correct air filter is placed in the device, but also whether the air filter still filters the supplied air with sufficient quality. This is important both for the persons present within the workspace and for specific production conditions.

In particular, the workspace can be moved, such as a "port-a-cabin" or a shack. If such a working space is used in a contaminated environment, it is desirable to purify the ambient air before it enters the working space. Both during normal work in contaminated air it can be advantageous to provide such a working space with purified air, but this is also advantageous in the event of calamities occurring in the vicinity of the working space. In particular, the filtering devices for the polluted outside air are designed in such a way that an air filter can easily be replaced without contaminated air penetrating the working space.

The invention also relates to cabin 5 assembled with means of transport, provided with a filtering device according to the present invention, wherein the filtered air outlet channel connects to the inside of the cabin. The cabin here refers to the space in which at least the driver of the vehicle is located. Examples of such means of transport are cranes, shovels, tractors, (dredging) vessels and so on. The advantages of the present invention are expressed in particular if the cabin assembled with the means of transport is placed in an environment in which the air to be filtered is contaminated with substances that pose a health hazard, such as, for example, digging, demolition and dredging work in contaminated environments. Because very aggressive substances can be released during such activities, such as asbestos, benzene, etc., it is of great importance that the operator stays in a purified atmosphere. The cabins with purified air are often also under overpressure to prevent contamination from entering the cabin through openings. Because the operator cannot simply step outside his cabin, it is not possible to check the filter that is usually only accessible from the outside. Even outside the contaminated environment, it is less desirable for the air filter to be manually controlled by the operator because all kinds of contamination can collect there, with which contact should be avoided. The advantage of the present invention is that the check can be carried out automatically. The air filter check also does not have to obstruct the work to be performed.

25

In a preferred embodiment, the transport means are provided with at least one drive with a breaker, which breaker is connected to a data-processing device of the filter device. The industrial vehicle is thus provided with an additional and automatically functioning safety. If no air filter, incorrect or otherwise not complying with the requirements, is installed, the drive will be deactivated by the breaker, whereby it can be prevented that the vehicle is used in this condition. This way, the user is prevented from being exposed to harmful substances. When placing a correct air filter 8, the breaker will not interfere with the operation of the industrial vehicle.

The invention also provides a method for at least partially filtering contaminated air, using the device as described above, during use being checked by means of electronically readable identification means placed on the air filter whether the filter is satisfactory. For the advantages of applying this method, reference is made to the above-described advantages of the device according to the present invention

The present invention will now be further elucidated with reference to the non-limitative exemplary embodiments shown in the following figures. Herein: figure 1 shows a perspective view of an air filter according to the present invention; and figure 2 shows a perspective view of a device for filtering contaminated air.

Figure 1 shows an air filter 10. A holder 20 here surrounds filter material 30. At a corner there is connected to the holder 20 of air filter 10 a radio frequency tag (RF-ID tag) 40. Also connected to the holder 20 is a data storage (database) 50 designed as a memory card. This data storage 50 can be fed contactlessly with data; in particular data concerning the circumstances in which the air filter 10 has been wrong.

Figure 2 shows a device 100 for filtering contaminated air, in particular for use as a mobile overpressure system, with a partially cut-away housing 110, in which a partially cut-away multiple air filter 120 is placed, which is provided with an RF-ID tag identification means 130 and a data storage 140 designed as a prom. A dual fan 150 is placed inside the housing 110. A supply channel 160 and discharge channel 170 are also connected to the housing 110. Near the supply channel 160, a sensor 180 is placed, for detecting the air flow (amount of air passed per unit of time [dm3 / min.]), And a sensor 185 for detecting 9 the concentrations of substances present in the polluted air. The sensor 185 can detect gases, liquids, and solids.

Adjacent the RF-ID tag 130 electronic readout means 190 are placed in the housing 110, which readout means 190 are provided with communication means. A clock 200 is also connected to the readout means 190. Also connected to the device 100 is a data processing unit 210 for processing and comparing data recorded by the sensors 180, 185, the readout means 190 and the clock 200.

The operation of the air filtering device 100 is further explained below. Multiple fans 150 generate an air flow according to the different arrows. According to arrow P1, the air to be filtered is sucked in through the supply channel 160. The sensor 180 herein detects the volume of the air flow and the sensor 185 the presence and concentrations of substances in the air flow. According to arrows P2 and P3, the air is passed through a multiple air filter 120. The filtered air is then discharged in accordance with arrows P4 and P5 via a discharge channel 170.

During the placement of the multiple air filter 120 provided with RF-ID tags 130, the readout means 190 will check with the aid of reference data in a database of the data processing unit 210 whether the correct air filters 120 have been placed in the observed conditions. During the usage time, the data from the sensors 180 and 185 as well as clock 200 together with the identification of the air filters 120 will be periodically compared with reference data from the data processing unit 210. Based on the result, the filter device will then deliver a characteristic signal.

Claims (20)

An air filter for at least partially filtering contaminated air, comprising: 5. filter material for filtering air, and - a holder for holding the filter material, the air filter also being provided with electronically readable identification means for identifying the air filter . Air filter according to claim 1, characterized in that the identification means can be read out electromagnetically. Air filter according to claims 1 or 2, characterized in that the identification means comprise a transmitter. 15 Air filter according to one of the preceding claims, characterized in that the air filter comprises a data storage for storing externally supplied data. Device for actively filtering contaminated air, characterized in that the device comprises: - a housing for receiving at least one air filter according to any one of the preceding claims, - at least one fan for supplying air to be filtered, and 25. reading means for electronically reading the identification means of an air filter placed in the housing, which reading means are assembled with the device. 6. Filtering device as claimed in claim 5, characterized in that the filtering device 30 comprises at least two air filters, wherein the air filters comprise filter materials that are different from each other. Filter device according to claims 5 or 6, characterized in that the device comprises a clock. 8. Filter device as claimed in any of the claims 5-7, characterized in that the device comprises detection means for detecting the characteristics of the contaminated air to be filtered. 5 9. Filtering device as claimed in any of the claims 5-8, characterized in that the device comprises detection means for detecting the flow of filtered air. C) stapling the flow in time of the filtered air; D) measuring the characteristics of the air to be filtered; and E) processing the measured data. 10. Filtering device as claimed in any of the claims 7-9, characterized in that the device comprises a data processing unit. A filtering device according to claim 10, characterized in that the data processing unit comprises a database for reference data. A filter device according to claim 11, characterized in that the device also comprises communication means for exchanging information. A filtering device according to any one of claims 5-12, characterized in that it comprises a supply channel for air to be filtered and a discharge channel for filtered air. Workspace provided with a filter device according to claim 13, characterized in that the filtered air outlet channel connects to the inside of the workspace. 25 Workspace according to claim 14, characterized in that the workspace is movable. 16. Cab assembled with transport means, provided with a filtering device 30 according to claim 13, wherein the filtered air outlet channel connects to the inside of the cab. 17. Transport means provided with a cabin as claimed in claim 16, characterized in that the transport means are provided with at least one drive with a breaker, which breaker is connected to a data-processing device of the filter device. 18. Method for at least partial filtering of contaminated air, comprising the processing steps: A) electronically identifying an air filter placed in a filtering device with read-out means; B) filtering air with the air filter; 19. A method according to claim 18, characterized in that the method also comprises: comparing the stored measured data with reference data. Method according to claim 19, characterized in that the method also comprises: outputting a signal depending on the result of the comparison of reference data with the measured data. 20