FI74881B - SAETT ATT AVKAENNA FOERAENDRINGAR AV FILTRERINGSEFFEKTEN HOS FILTRERINGSANORDNINGAR FOER URSKILJNING AV FOERORENINGAR UR GASFLOEDEN OCH ANORDNING FOER GENOMFOERANDE AV IFRAOGAVARANDE SAETT. - Google Patents

Description

74881

The present invention relates to a method for detecting changes in the filtration efficiency of filtration devices for separating contaminants from gaseous streams, indicating the changes by transmitting signals. The invention further relates to an apparatus for carrying out the method in question.

The known known principles for knowing the filter filling level of air filtration devices are not sensitive enough, which means that the filtration device is allowed to fill with contaminants to a relatively high degree before sending 15 characters. This means that the filtration device operates from time to time with reduced filtration power.

The object of the present invention is to eliminate this problem and to provide a method which provides a much more sensitive sensory function. It is a further object of the present invention to provide a simple and reliable device for carrying out the method according to the invention.

This is achieved by providing the method, respectively the device according to the appended claim 1 and 5 characteristics.

The invention will now be described with reference to the accompanying drawings, in which Fig. 1 schematically shows a filtering device with devices according to the invention, Fig. 2 schematically shows a voltage field, and Fig. 3 shows a circuit diagram of a switch belonging to the device according to the invention.

The device shown in the drawings comprises a voltage transformer 1 and a filtering device 2 for separating contaminants from the gas, preferably for separating harmful substances 35 from the smoke coming from the welding devices. The filtration device 2 comprises an automatically driven fan 5 and one or more removable filters comprising filter cells 74881 2. The fan 3 is intended to suck polluted air into the ionized block 7 of the filtering device 2, where the contaminated particles in the air stream are positively charged so that these the particles 5 will be deposited on the surface of the filter cells 5 which are negatively charged.

As the particles are continuously deposited on the surface of the filter cells, their ability to receive more particles decreases, so that the filtration performance of the filtration device becomes unsatisfactory after a rather short operating time.

To indicate reduced filtering performance in front of the filtering device 2, it is allowed to continue with the reduced filtering power for too long or before the filtering power further decreases to an unacceptable level, the filtering cell 15 5 is monitored by a sensing and signaling device 8. Here is an electronic control circuit 9 (see Fig. 3) 11, for detecting a voltage (so-called resonant voltage) between the filter cells 5. At normal filtering power, the voltage between the filter cells 5 is 110-121 * V 20 (see Fig. 2) and the input resonator 9 does not supply any voltage to the buzzer 12 and the lamp 13, but continues to supply voltage to the motor relay of the fan 3. If the voltage drops below 110 V or rises above 12 * 1 V due to contamination of the filter cells and / or short-circuit effects 25 in the filter cells 5 due to damage to the filter cell collector plates (not shown) and / or ionization wires (not shown) in the ionized block 7, as follows: 30 Voltage Signal transmission <108.5 permanent buzzer sound permanent light contactor switches off the fan motor, for example in 12 seconds-35 n

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3 74881 108.5-110 V Intermittent buzzer flashing light contactor does not switch off 110-124 V no buzzer sound c; J no light 124-125.5 V intermittent buzzer flashing light contactor does not turn off the power 10> 125.5 permanent buzzer sound permanent light contactor turns off the fan motor for example in 12 seconds 15

The switching off of the contactor connected to the fan motor, i.e. the stopping of the fan 3 is preferably delayed for a few seconds, for example 6-20 s, so that the fan 3 does not stop as a result of temporarily passing metal blades 20 temporarily lowering the voltage between the filter cells 5. However, if the voltage is permanently below 108.5 V or exceeds 125.5 V, the fan will stop and can only be restarted after removing or cleaning the dirty filter cells 5.

25 The above values of the voltage / signal transmission table can, of course, be varied depending on the quality of the parts of the sensor and signal transmitter 8 or other parts of the system, etc.

The structure of the control circuit 9 may vary, but Figure 3 shows a practically advantageous and functionally suitable structure. It can be mentioned that the input-resonance voltage is rectified, the voltage is divided and filtered. The voltage level is adjusted by means of a smoothing potentiometer L4, which determines the purity value of the filter.

35 The voltage is applied to comparators 15-18 and the reference voltages are generated by stabilizing at 24 V from unit 19.

* 74881

Comparators 16 and 17 signal at 110 V, 110 V, respectively, because voltage and comparators 15 and 18 signal at 125.5 V, 108.5 V, respectively. Comparators 16 and 17 activate pulse current-5 circuit 20, which supplies buzzer 12 and trias. 21, which illuminates the signal lamp 13 · An intermittent light and sound signal is obtained when the second comparator 16 or 17 is activated.

The comparators 15 and 18 close the pulse circuit 22 in the activated state and start the time circuit 22, 10 which, after about 12 seconds, cuts off the control current to the triage 23, which causes the contactor of the feeder to trip. Unit 24 acts as a control circuit for the trias 23 and resistors 25 and 26 provide hysteresis at about IV levels 124 V resp. 110 V for separate function.

The method and device according to the invention are not limited to the embodiments just described, but may vary within the scope of the claims. Thus, the transmission of the character can take place only as a single light signal, only as an audible signal, only as a distinguishing signal, or as a suitable combination thereof.

Il

Claims (7)

A method for detecting changes in the filtration power of a filtering device, the filtering device (2) comprising filter cells (5) for separating contaminants from a gas stream and a motor driven fan (3) for providing a gas flow, the method being indicated by transmitting signals, characterized by monitoring the filtering device (2) a change in voltage between the filter cells (5) and transmitting detection signals when the voltage changes outside a certain normal range. A method according to claim 1, characterized in that a stop signal is given to the fan to stop it when the voltage changes outside a certain detection signal range larger than the normal range. Method according to Claim 2, characterized in that the stop signal is triggered with a certain deceleration from the time when the voltage has reached the stop signal values. A method according to claim 2 or 3, characterized in that an intermittent detection signal is transmitted when the voltage changes outside the normal range, and when a continuous detection signal is transmitted outside the detection signal range. An apparatus for detecting changes in the filtration power of a filtration device comprising filter cells (5) 25 for separating contaminants from a gas stream and a motor driven fan (3) for generating a gas flow, the apparatus further comprising a signaling device for transmitting signals indicating changes in filtration power. (2) to monitor the change in voltage between the filter cells (5) and to change the voltage changes into signs of a change in filtration power. 5 7 4-881 Apparatus according to claim 5, characterized in that it comprises a device for filtering the voltage between the filter cells. Apparatus according to claim 5 or 6, characterized in that the control unit comprises a plurality of comparator circuits, each of which operates at a different voltage. 6 74881