DE19850225A1 - Condition monitoring device for filters comprises an integrator or counter for a pulsed and/or analogue input signal - Google Patents

Abstract

Arrangement (1, 40) for determination of filter condition, or replacement point, for a filter element (2, 1) of an air conditioning system (2) , has an integrator or counter (5) for a pulsed and/or analogue input signal. A comparator unit (6) provides an optical or acoustic warning when the integrator exceeds a predetermined set-point value The condition of the filter is assessed as a function of the ventilation fan accumulated running hours, smoke detection, and air humidity, and may also take account of motion sensor signals and room lighting switch operation.

Description

The invention relates to a device for detecting the Condition or end of life of a Filterele one in a ventilation or air conditioning system NEN ventilation device according to the preamble of the claim 1.

The filter elements used in ventilation or air conditioning systems elements are used to clean the air as a medium before it is blown into the room to be conditioned.

Filter elements of this type can only be used in a limited amount of pollutants and / or dirt particles without that the flow resistance increases significantly or without that the air volume flow is significantly reduced. Thereby arise depending on the operating conditions of the fan of different sizes. Service intervals, in within which the filter element used is replaced must be if the ventilation or air conditioning system should work according to.

A control system is known, according to which the difference in Pressure losses over one equipped with a filter element constant line section and a filterless bypass Line determined and if a predeterminable is exceeded Limit value as a measure of the pollution of the Filters a filter change is made.

Another control system is known in which the Pressure difference from the pressure before and after the filter and if a specified limit value is exceeded a filter change is made.  

However, this solution has the disadvantage that it is often - especially due to the vulnerability of the pressure sensors compared to contamination - incorrect measurements occur, causing the filter change at the wrong time - in the above number of cases too early - is carried out and there through economic losses through additional costs for the Operational management of the ventilation or air conditioning system arise. After a longer period of use, the measurement and on falls pointing device because of the pollution usually com completely out.

Based on the shortcomings of the prior art, the Invention therefore the task of a device of the genus mentioned at the beginning, by which on simple way the time for a required out Exchange of a filter element in a ventilation or cli masystem reliably determined and ge for display can be brought.

The task is carried out by the in the characterizing part of the To solved 1 specified characteristics.

The invention includes the knowledge that the Ver contamination of the filter element in a ventilation or Air conditioning system used ventilation device of the operation duration of the system, especially the duration of the ventilation device and the operating time of the supply air elements, directly is proportional and the filter element after a certain Ten operating times must be replaced when the ventilation air conditioning or air conditioning system should work properly.

So there are advantages and simplifications in the determination and display of the by the duration of the ventilation device  specific point in time for changing a filter element then attainable if physical quantities for the determinations of this point in time, which medium bar and / or directly with the operating state or the Operating time of the ventilation device are related and their measurement of the pollution of the Flow medium in the relevant ventilation or Kli masystem are essentially independent.

According to a preferred embodiment of the inven dung has the device for dispensing the end of, Service life or the time to change the filter elements indicating the signal on which this time point in an advantageous manner over the duration or the Operating time one in a ventilation or air conditioning system determine the ventilation device set.

The determination of the time to change the filter element can be done with even greater accuracy if the detection of the running time of the ventilation device under Taking into account the respective position of the airmen regulating counter current in the ventilation or air conditioning system Control flap is made. Alternatively there is also Possibility to change the fan speed over time cut a likely contamination of the filter to lay the ground. This will do the deed in a favorable way the actual delivery rate of the ventilation device tigt, which the pollution of the used Filterele caused.

For this purpose, the device has a fan control, which (Optionally, additional input signals, which are a  Make fan power necessary, supply control signals) NEN clock or an integration device activated. Such input signals are, for example, measured values ei moisture sensor, a motion detector, a smoke detector ders, the output signal of a revolution counter of the An drive motor or the control pulses of a timer which of the fans - depending on the operating regime the ventilation or air conditioning system - at certain times and / or is switched on at time intervals.

A counter circuit downstream of the clock sums the Clock pulses during the running time or the operating time of the Ventilation device at the various switch-on times. The output of the counter circuit or the individual run times of integration of the ventilation device direction is connected to a comparator unit. Here the output signal of the counter circuit is compared or the integration device with a limit value, wel the permissible operating time of the filter element speaks.

If this limit is exceeded, a switch is activated direction activated, which is an acoustic or optical Signaling device to indicate the end of use duration of the filter element of the ventilation device tet or a corresponding electrical signal via Delivers bus system.

According to another advantageous embodiment of the inven the accuracy of the determination of the By weighting and correcting the target values  the rele for the operating state of the ventilation device optimize sizes.

Thereafter, the device, preferably electronic, Means are provided in which at least two the operating State of the ventilation device of a ventilation or Kli masystem indirectly and / or directly influencing Weighted sizes are superimposed and by which the Size of the amplitude of the input signal to be integrated or the amount of the clock frequency of a clock depending is adjustable from this value.

For the weighting of the operating state of the ventilation device direction of a ventilation or air conditioning system indirect and / or directly influencing variables is preferred the influence of these quantities on the degree of pollution the amount of air delivered by the ventilation device or the frequency of occurrence of conditions which trigger these variables.

As the operating state of the ventilation device of a fan tion or climate system indirectly and / or directly influencing variables are advantageously in for example the output signals of a smoke detector or egg sensor that detects the relative humidity of a sizing room detected, as well as measurement signals that the Häu ability to use a certain air quality demanding space or the number of revolutions of the An drive motor display or the output signals of a time encoder for the intermittent operation of the ventilation device ventilation or air conditioning system.  

Signals that a smoke detector emits are included considered a greater weight than the output signals of the timer, since the Lüf device by the essentially the same size, however different amounts of polluted air different filter contamination is to be expected. By this weighting makes it possible both in technology the right time from an economic point of view to change the filter element of the ventilation device ei of a ventilation or air conditioning system can be determined more precisely.

According to another embodiment of the invention Device for generating an optical and / or acousti signal to indicate the end of service life Nes filter element designed as a system that the Determination of this time either using the Detection of the running time of the ventilation device under Be taking into account the respective position of the control valve, the fan speed or the evaluation of at least two, the operating condition of the ventilation device flowing sizes, which previously a weighted overlay have been subjected to.

Through a switch that can be activated via the fan control unit can adapt to the operating conditions of the ventilation or climate system adapted form for the determination of the En of the service life of a filter element of the ventilation device and the corresponding display by an acousti cal, optical and / or electrical signal selected become.  

According to a favorable development of the invention has the device for generating an electrical, op tables and / or acoustic signal to indicate the Zu status or the end of the service life of a Filterele ment additional funds to the speed of the fan mo Tor of the ventilation device depending on the actu Gradual contamination of the filter element to limit.

This form of operation of the ventilation device is taken into account tigt that despite a dirty filter element Increasing the speed of the fan motor does not increase the Air flow is possible. The supply or exchange the required amount of air through the ventilation or air conditioning masystem takes place taking into account operational economic aspects over a longer period of time.

According to the output of the counter circuit or record the individual running times of the ventilation device the integration facility with a second comparison cher unit connected, the signal output with the tax tion is connected. Here is a comparison of the off output signal of the counter circuit or the integration direction with several limit values, each one un Different degree of contamination of the filter element ent speak. Depending on the respective comparison, in the second comparator unit generates output signals, which uses the fan control to control the speed of the fan motor lower the gate in stages.

At the same time, the device according to the invention has a Filter status display on which the current degree of  Contamination of the filter element can be read as an intermediate value is. The use of rows is used for this LEDs cheap, because with such components a display of intermediate values in particular if they are clearly recognizable can be easily made.

For the application in which an arrangement of he device according to the invention in the ventilation shaft Personal computer for monitoring the pollution of a filter element provided there is corresponding an additional variant of the invention a display of Degree of contamination of the filter element over the to the Personal computer connected monitor provided. The Output signals of the comparator unit of the device in the BIOS of the operating system of the personal computer entered and thereby permit an operating state show the filter element on the screen when the per personal computer is turned on.

If the personal computer is integrated in a network, can conveniently by using a suitable soft a maintenance order would be triggered automatically if the permissible degree of contamination of the filter element is enough.

Other advantageous developments of the invention are in the subclaims or are identified below along with the description of the preferred embodiment the invention with reference to the figures. It shows:

Fig. 1 shows a preferred embodiment of the invention as a block diagram,

Fig. 2 shows another advantageous embodiment of the dung OF INVENTION in the block diagram,

Fig. 3 shows a further embodiment of the invention in a block diagram,

Fig. 4 shows a development of the embodiment shown in Fig. 1 from the invention, and

Fig. 5 shows an additional variant of the invention in block diagram.

The block diagram shown in Fig. 1 shows an on device 1 for generating an optical, acoustic and / or electrical signal at the time at which an air filter insert 2.1 used in a single room ventilation system in a (not shown) supply air element is so dirty that a proper operation of the ventilation system is no longer guaranteed without changing the air filter insert.

The device 1 is also - accordingly modified - can be integrated into the ventilation device of a single room ventilation system or used in central ventilation systems.

The device 1 has a fan control 3 , which is connected on the output side via control lines 3.1 and 3.2 to a fan 2.2 and a control flap 2.3 , which are arranged in the (not shown) air duct system of the ventilation or air conditioning system 2 .

On the input side, a connection of the fan control 3 to a timer 10, a switch 11 for a room lighting, a motion detector 12 , a humidity sensor 14 and a smoke detector 15 is connected.

Times or time intervals for the response of the fan 2.2 according to a general program for the air conditioning of a room can be predetermined via the time switch 10. If this room is additionally entered by people, which is signaled by a motion detector 12 or by switching on the room lighting via an OR gate 13 , the fan 2.1 is to be switched on via the fan control 3. The activation of the fan 2.2 is also necessary if the relative Air humidity in the room exceeds a setpoint or the room air - for example due to a fire - is contaminated with additional particles. These conditions are detected by a moisture sensor 14 or a smoke detector 15 and reported to the fan control 3 .

When the timer 10, the switch 11 or the sensors 12 , 14 and 15 responds, a control signal for activating the fan motor and for adjusting the control flap of the ventilation or air conditioning system 2 is emitted via the fan control 3 .

The control signals present on the control lines 3.1 and 3.2 for activating the motor of the fan 2.2 and the throttle valve 2.3 simultaneously form the input signals for a clock generator 4 connected to a counter 5 via line 4.1 . The control signal on the control line 3.1 switches on the clock generator 4 , the control signal on the control line 3.2 determines the level of the clock frequency of the clock generator 4 . The counter 5 is connected on the output side via line 5.1 to a comparator unit 6 , the input signal of which corresponds to the sum of the clock pulses triggered by the activation of fan 2.2 and throttle valve 2.3 . By comparing the output signal of the counter 5 with a limit value entered into the comparator unit 6 and corresponding to the service life of the air filter insert in the ventilation or air conditioning system 2 , the time for the change of the air filter insert 2.3 is determined.

When the limit value, the comparison means are integrated 6 via the line 6.1 at its output a pulse signal to a switching means 7, which in turn activates an opti cal and an acoustic signal device 8, 9 in order to show a required change of the air filter element 2.3.

In the block diagram shown in Fig. 2, a device 1 'for generating an optical and acoustic signal's is shown. The signal is generated at a point in time at which the air filter insert 2.1 of a fan 2.2 used in a ventilation or air-conditioning system 2 has to be replaced, which seen an evaluation unit 16 for weighting the operating state of the fan 2.2 with variables influencing the fan control is.

The indirectly influencing the operating state of the fan 2.2 are the output signals of a timer 10 , the switch-on signal of a switch 11 for the lighting of a room to be ventilated or the output signal of a motion detector 12 , which indicates the use of the room by people, or the output signals a humidity sensor 14 or a smoke detector 15 , through which in each case an atypical air quality is detected for the room to be ventilated.

By the timer signals and the triggered by the respective air quality in the room to be ventilated Signa le, which lead to the fan 2.2 starting up, an operating state of the fan 2.2 can be detected in each case, which causes a different load of the air filter set. This fact is detected by a weighting factor in order to ensure a more precise determination of the time for changing the air filter insert.

The weighting factors for the individual variables influencing the operating state of the fan 2.2 are calculated in the fan controller 3 and entered into the evaluation unit 16 via the signal connection 3.3 . The signal output 16.1 of the evaluation unit 16 is connected to an integrator 17 , which determines the time integral of the weighted variables. The integrator 17 is connected via the line 17.1 to a comparator unit 18 , in which - as already described in the explanations for FIG. 1 - the individual time integral values are summed and compared with a limit value dependent on the service life of the air filter insert 2.1 . If the limit value is exceeded, it is followed by a signal at the output of the comparator unit via line 18.1 to control a switching device 19 , which in turn activates an optical and acoustic signaling device 8 , 9 to indicate the required change of the air filter insert.

The device 1 "shown in FIG. 3 in the form of a block diagram for generating an optical and acoustic signal at the time of the required change of an air filter insert 2.1 of the fan 2.2 in a ventilation or air conditioning system 2 forms a system which enables the use of the Operating mode of the fan either medium bar or directly influencing sizes optionally possible.

In order to be able to make this choice depending on the area of application of the ventilation or air conditioning system, the device for signal generation 1 "has a priority circuit 20 , which is connected via line 3.4 to the fan control 3 and via lines 6.1 and 18.1 to the outputs of Comparator units 6 and 18. The priority circuit 20 is activated manually by the operator of the ventilation or air conditioning system by means of a signal generated by the fan control 3 .

The device 1 '''shown in FIG. 4 has, in comparison to the device 1 according to FIG. 1, an additional comparator unit 22 , the signal input of which is connected via line 5.2 to the signal output 5.1 of the counter circuit 5 . In the second comparator unit 22 , the current counter reading is compared with various limit values and triggers a signal when they are exceeded. The output signal of the comparator unit 22 activates the controller 3 in such a way that the speed of the fan motor of the ventilation device 2.2 is reduced in stages with increasing filter contamination, in particular for reasons of business management. When filter contamination is reached, which makes it necessary to change the filter, the fan motor is operated in emergency mode at a very low speed. It is therefore sensible to reduce the speed of the fan motor, since the filter contamination does not result in an increased air throughput even when the speed is increased.

At the same time, a display of intermediate values of the filter contamination is provided. For this purpose, the current output signal of the counter 5 is switched to a display device 2.4 via the line 5.2 and a converter 23 . In the display device 24 LEDs are arranged in rows and are activated depending on the degree of contamination of the filter by the output signal of the converter 23 .

Fig. 5 shows in schematic form a with a device for generating an electrical signal to show the state or the end of the service life of a filter element equipped personal computer 30 in partial sectional view.

The ventilation system 45 used for cooling the personal computer 30 has a fan motor 46 and an air filter 47 , which are arranged in a ventilation duct 48 guided through the wall of the computer housing. The use of the air filter 47 prevents contamination of the hardware components of the personal computer even during long-term operation. By pressing the operation switch 31 , the computing unit 32 and the device 40 are turned on. The controller 41 activates the fan motor 46 via the control line 41.1 and, at the same time, the clock generator 42 , the clock pulses of which are switched to the counter 43 via line 42.1 when the personal computer 30 is started up - and thus for the operating period of the fan motor 46 . The respective current sum signal of the counter 43 reaches the signal input of the comparator unit 44 via line 43.1 . In the comparison unit 43 , the sum signal of the counter 43 is compared with several limit values, each corresponding to a certain degree of contamination of the air filter 47 . The respective output 44.1 of the comparator unit 44 is input to the personal computer 30 in the BIOS of the operating system, so that via the computer interface 35 by a signal 36 of the opponent last vomit in the counter 43 cherten sum signal pollution degree of the air filter 47 separate to the screen 37 in a window 38 is displayed.

If the sum signal reaches the limit set for a filter change required due to contamination, the automatic triggering of a maintenance order is possible if the appropriate software is available. The corre sponding signal 34 is fed via the computer interface 33 in a (not shown) network.

The invention is not limited in its execution the preferred embodiments given above le. Rather, a number of variants are conceivable, which fundamentally different from the solution shown makes use of any type.

Claims (11)

1. Device ( 1 , 1 ', 1 ", 1 "", 40 ) for detecting the state or end of the service life of a filter element ( 2.1 ) of a ventilation device provided in a ventilation or air conditioning system ( 2 , 45 ), thereby characterized in that a counting or integration device ( 5 , 17 ) is provided which is supplied with a clock signal ( 4.1 ) or an input signal to be integrated ( 16.1 ) when the ventilation device ( 2.2 , 46 ) is in operation, and which egg ne, preferably designed as a discriminator stage, comparator cher unit ( 6 , 18 ), which emits an output signal ( 6.1 , 18.1 ) for triggering the electrical, optical or acoustic signal ( 8 , 9 , 34 ) when the count value ( 5.1 ) of the counting device ( 5 ) or the output signal ( 17.1 ) of the integrator ( 17 ) exceeds a predetermined value. 2. Apparatus according to claim 1, characterized in that the clock frequency or the amplitude of the input signal ( 16.1 ) to be integrated is dependent on the operating state of the ventilation device ( 2.2 , 46 ) or one of these operating states directly and / or indirectly affect the size. 3. Apparatus according to claim 1, characterized in that the clock frequency or the amplitude of the input signal to be integrated is dependent on the weighted superposition of at least two the operating state of the ventilation device ( 2.2 , 46 ) directly and / or indirectly influencing variables. 4. Device according to one of the preceding claims, characterized in that the clock frequency or the amplitude of the input signal to be integrated in dependency on a control variable ( 3.1 , 3.2 ) for the operation of the ventilation device ( 2.2 , 46 ) or one of these operating state Be immediately or indirectly influencing variable is variable. 5. The device according to claim 4, characterized in that the control voltage ( 3.1 , 3.2 ), the operating voltage, the operating current or the speed of the motor driving the ventilation device ( 2.2 , 46 ) or the position of a throttle valve ( 2.3 ) influencing the air flow are provided. 6. The device according to claim 4, characterized in that it is in the operating state of the fan device ( 2.2 , 46 ) indirectly influencing size to the output signal of a timer ( 10 ), motion detector ( 11 ) or other switch ( 12 , 31 ) acts, which puts the fan motor into operation for a predetermined period of time. 7. The device according to claim 4, characterized in that it is in the operating state of the Ventilationsvor direction ( 2.2 ) indirectly influencing size to the output signal from a moisture sensor ( 14 ) or smoke detector ( 15 ), which the fan motor for a predetermined period of time or in operation with a predetermined intensity. 8. Device according to one of claims 4 to 7, characterized in that means ( 5.2 , 22 ) for - in particular stepwise - speed limitation of the fan motor depending on the degree of contamination of the filter element ( 2.1 ) are provided. 9. The device according to claim 8, characterized in that a display device ( 24 , 37 ) for the degree of Ver pollution of the filter element ( 2.1 ) are provided. 10. The device according to claim 9, characterized in that the display device for displaying intermediate values of the degree of contamination of the filter element ( 2.1 ) has an LED line ( 24 ). 11. The device according to claim 9, characterized in that the monitor ( 37 ) of a personal computer ( 30 ) is provided as the display device, whose ventilation system ( 45 ) is controlled by the device ( 40 ).