DE19725029A1 - System for sucking out air containing particles, e.g. dust - Google Patents

Abstract

The system for sucking air containing foreign particles has a suction motor (5) connectable at an AC voltage source (8) using a switch arrangement (14) which sucks out the air through a suction duct. A control unit is provided, which with the closing of the switching arrangement raises the suction power of the suction motor, emanating from a low switched on suction power up to a higher desired operating suction power. The switched on current (IE) flowing to the switched on time point through the suction motor (5) is smaller than that of the starting current which would be set, without the reaction of this control unit (26). The operating suction power is variably adjustable, across a power selection unit (46). For the specifying of the operation suction power, a corresponding desired revs per minute is adjustable. The control unit (26) regulates the suction power of the suction motor (5) using a phase chopping control.

Description

The invention relates to a device for suctioning Air and the particles it contains, such as dust, chips od. Like., With a by means of a switch arrangement to a AC power source connectable naturally aspirated Sucks air out through a suction channel.

Devices of this type are based on the conventional 230 V alternation power supply network connectable, the usual removed by fuses against excessive currents is secured. However, the suction power of the Suction motor limited because of a certain maximum current value must not be exceeded. It is known that for Switching on a much higher current through the Suction motor flows as later during the operation of the suction motors. The greater the power of the naturally aspirated engine, the more the inrush current is also higher, so the Power of the suction motor does not exceed a certain value stride to trigger the fuses of the switch to avoid voltage grid. During machining  of workpieces on machine tools becomes suction the chips are often provided with a suction device. Here at the suction channel can be very long, and often several machine tools only one suction device device assigned, with the suction channel to a respective machine tool branches. This leads to large suction power of the device's suction motor are required, but based on the already mentioned Restriction cannot be increased arbitrarily.

It is therefore the object of the present invention, a Device for suction of air and contained therein Creating particles that have a higher operational suction performance of the naturally aspirated engine and at the same time tripping the fuses of the AC network prevented.

This object is achieved in that a control device is provided which when closing the switch arrangement the suction power of the suction motor going from a lower switch-on suction power up to a higher, desired operating suction power increases, so that at the time of switching on by the naturally aspirated engine flowing inrush current is smaller than that without Would adjust this control device Starting current.  

In this way it is possible to withstand the inrush current to keep a higher operational suction power low and a triggering of the AC voltage source, the esp special of the conventional 230 V AC network is formed to prevent hedging fuses. Ins especially in the event that the suction device one long suction channel or at several at the same time Places, for example on several machine tools, sucks, a higher operating suction power of the Suction motor can be selected without the electrical from fuse to higher ampere values would have to be changed and without the risk of overloading and damage of the naturally aspirated engine due to an increased inrush current exist.

Advantageous developments of the object of the invention emerge from the subclaims.

The operating suction power is expediently above one Power selector switch variably adjustable. Especially can specify an ent speaking desired speed of the suction motor set will. This is a flexible adjustment of operations suction power to the needs corresponding to the situation nisse possible.  

The control device advantageously regulates the suction performance of the naturally aspirated engine by means of a leading edge control. This is a very simple and inexpensive one Possibility to vary the suction power.

In a particularly expedient embodiment, the Control device for their energy supply through the Connect the switch assembly to the AC voltage source connected. It is therefore not necessary that Device to another, second power supply source, but to supply the tax the device that also feeds the naturally aspirated engine AC voltage source used.

The fact that the control device is a rectifier has circuit that the AC voltage in a Ver transformed DC voltage, the energy supply the control device on simple and inexpensive Way be ensured. In particular, the Rectifier circuit at least one rectifier diode on. Only one rectifier diode is preferred provided because a one-way rectification in the present Case is sufficient to supply the control device and the device due to the saved components in Comparison to two-way rectification with multiple equals can be manufactured more cheaply.

The device according to the invention is described below the attached drawing explained. The only Figure shows an embodiment of the electrical or electronic circuit of the suction motor and the control Facility.

The device according to the invention for extracting air can, for example, in a conventional vacuum cleaner will be realized. The vacuum cleaner has one as Suction pipe trained suction channel through which the air is extractable. The air becomes outside, open, free Aspirated end of the suction channel, being by the air flow also dust, chips or other dirt particles can be extracted are. The suction channel opens at the opposite, inner one End in a container in which the sucked Particles are caught.

To generate the air flow in the suction channel, a suction motor 5 is provided which drives, for example, a fan-like propeller arrangement, which then sucks in air from the free end of the suction channel in the direction of the inner end.

The device according to the invention can, for example, in commercial household vacuum cleaners or in suction directions for hand tools or machine tools for  Use where suction is an example of chips is desired. Furthermore, the device can a branched suction channel also several stationary Machines can be assigned at the same time, so that at air is sucked out at different points at the same time.

In the single figure, an electrical control circuit 6 is shown, which supplies and controls the naturally aspirated motor 5 . By means of a mains plug 7 , the entire control circuit 6 can be connected to an AC voltage source 8 , which is preferably formed by the conventional 230 V AC voltage network.

The power plug 7 is connected by means of a first and second connecting line 12 , 13 to a switch arrangement 14 of the control circuit 6 , a first switch 15 connecting to the first connecting line 12 and a second switch 16 connecting to the second connecting line 13 .

The first switch 15 is connected at its other connection to a supply line 19 , so that it connects or disconnects the first connecting line 12 and the supply line 19 depending on the switching state.

At the second switch 16 , a ground line 20 is connected, so that it can be connected to the second connecting line 13 by means of the second switch 16 . The ground line 20 is connected to ground, which is shown at 21 in the figure.

The suction motor 5 and a triac 24 are connected in series between the supply line 19 and the ground line 20 . The gate of the triac 24 is connected to a control line 25 via which the triac 24 can be controlled.

The supply line 19 , the ground line 20 and the control line 25 are connected to a control device 26 , which is shown in dashed lines in the figure. The control device 26 contains a control device designed as an IC 28 , which is formed, for example, by an IC of the U 2008B type from Telefunken. Alternatively, it would be possible to implement the control unit by means of a programmable microcontroller or to build it up discretely from electrical and electronic components.

The control device 26 contains a rectifier circuit 30 , which consists of a series connection of a rectifier diode 31 and a rectifier resistor 32 . The rectifier diode 31 is connected to the supply line 19 Ver. At the rectifier resistor stood 32 , a DC voltage line 33 connects to the input U _V of the control unit formed by the IC 28 . The input GND of this IC 28 is connected to the ground line 20 and thus connected to the ground 21 . In order to compensate for fluctuations in the voltage supply of the control unit, a smoothing capacitor 36 is interposed between the DC voltage line 33 and the ground line 20 , which is expediently formed by a so-called electrolytic capacitor.

To control the triac 24 , the output IMP is provided on the IC 28 and is connected to the control line 25 via a first limiting resistor 37 . The input U _{sync of} the IC 28 serves to synchronize the activation of the triac 24 and is connected to the supply line 19 via a second limiting resistor 38 .

A ramp resistor 41 , a ramp capacitor 42 and a soft start capacitor 43 are provided to determine the time sequence of the drive pulses of the triac 24 , which are output via the output IMP of the IC 28 . The soft start capacitor 43 and the ramp capacitor 42 are in each case on the one hand connected to the ground 21 and on the other hand connected to the connections C _Soft and Ramp _{C of} the IC 28 . According to the example, the soft start capacitor 43 is formed by an electrolytic capacitor. The ramp resistor 41 is on the one hand connected to the terminal _{R of} the IC 28 and on the other hand connected to the DC voltage line 33 .

To set a desired operating power of the naturally aspirated motor 5 , the control device 26 contains a power selection device 46 which , according to the example, is formed by a speed selector switch used to set the operating speed of the naturally aspirated motor 5 or another speed setting device. The power selection device 46 has a series circuit of a variable potentiometer 48 and a voltage divider resistor 49 , the potentiometer 48 with the DC voltage line 33 and the voltage divider resistor 49 was connected to ground 21 . The variable center tap 50 of the potentiometer 48 is connected _to the IC 28 via a third limiting resistor 51 to the input of N. To compensate for voltage fluctuations at this input, it is also connected to ground 21 via an equalizing capacitor 52 .

The object of the control device 26 is, during closing SEN of the switch assembly 14, the suction power of the suction motor 5 from a lower Einschaltsaugleistung up to a higher, desired device by means of the power selector 46 set Betriebssaugleistung to increase, so that the switching-on by the suction motor 5 flowing inrush current I _{E is} smaller than the starting current that would occur without the action of this control device 26 .

After the switch arrangement 14 has been closed, there is an AC voltage U ₀ between the supply line 19 and the ground line 20 , which corresponds to the voltage of the AC voltage source 8 . In order to control the power of the naturally aspirated motor 5 , the triac 24 receives a control pulse from the control device and, for example, from the output IMP of the IC 28 via the control line 25 at its gate, so that it becomes conductive. As a result, a current can flow through the suction motor 5 so that it is driven. At the next zero crossing of the AC voltage U _0, the triac 24 locks again, and no more current flows through the naturally aspirated motor 5 . Only after the next control pulse at the gate of the triac 24 does it become conductive again and enable current to flow through the naturally aspirated motor 5 . Between the control pulse at the gate of the triac 24 and the subsequent zero crossing of the AC voltage U ₀ , a current flows through the naturally aspirated motor 5 , so that the power of the naturally aspirated motor 5 is dependent on the time at which the triac 24 relates to the subsequent zero Passage of the AC voltage U ₀ passes into its conductive state.

The greater the distance between the control pulse at the gate of the triac 24 and the subsequent zero crossing of the alternating voltage U ₀ , the greater the suction power of the suction motor 5 .

The time of the drive pulse output at the output IMP of the IC 28 for the triac 24 is via the ramp resistor 41 , the ramp capacitor 42 and the soft start capacitor 43 adjustable. Preferably, the suction power of the suction motor 5 is increased in a ramp-like manner after switching on from the switch-on suction power to the operating suction power. About the values of the components 41 , 42 , 43 , the time period can be changed, which is between the switch-on time and reaching the operating suction power. This means that the steepness of this ramp function can be predetermined by these components 41 , 42 , 43 .

The switch-on suction power is to be chosen so low that the current flowing through the naturally aspirated motor 5 does not overload the AC voltage source 8 , to which the control circuit 6 is connected as an example. Such a large inrush current I _{E is} avoided by gradually increasing the suction power, so that the fuses usually provided in the AC voltage source 8 do not trip.

In order to be able to set the desired operating suction power, the control device 26 has the power selection device 46 , which is designed, for example, as a speed selector switch and which specifies the speed of the suction motor 5 during normal operation. By varying the potentiometer setting of the potentiometer 48 falls on input N _to the IC 28, a position of the potentiometers and hence of the position of the center tap 50-dependent speed control voltage U _n, which evaluates the IC 28 and the operating speed of the suction motor 5 via a controls the corresponding control of the triac 24 accordingly. The third limiting resistor 51 serves in this case the current limit for the input N _to the IC 28th By means of the compensating capacitor 52 slight variations can speed control voltage U _n from resembled be in the.

In order to synchronize the drive pulses for the triac 24 which are output at the output IMP of the IC 28 , the input U _{sync of} the IC 28 is connected to the supply line 19 via the second limiting resistor 38 . The second limiting resistor 38 is used to limit the current of the current flowing through the input U _sync in the IC 28 . The course of the AC voltage U ₀ determined at this input is required in order to determine the times in the IC 28 in which the triac 24 must be controlled.

Claims (10)

1. Device for suction of air and ent contained particles, such as dust, chips or the like, with a by means of a switch arrangement ( 14 ) to an AC voltage source ( 8 ) connectable suction motor ( 5 ) which sucks the air through a suction channel , characterized in that a control device ( 26 ) is provided, which increases the suction power of the suction motor ( 5 ) starting from a lower switch-on suction power to a higher, desired operating suction power when the switch arrangement ( 14 ) is closed, so that the switch-on time by the starting current (I _E ) flowing the naturally aspirated motor ( 5 ) is smaller than the starting current which would occur without the action of this control device ( 26 ). 2. Device according to claim 1, characterized in that the operating suction power via a power selection device ( 46 ) is variably adjustable. 3. Device according to claim 2, characterized net that an ent speaking desired speed is adjustable. 4. Device according to one of claims 1 to 3, characterized in that the control device ( 26 ) regulates the suction power of the suction motor ( 5 ) by means of a phase control. 5. Device according to one of claims 1 to 4, characterized in that the control device ( 26 ) increases the suction power of the suction motor ( 5 ) from the switch-on suction power to the operating suction power in a ramp-like manner. 6. The device according to claim 5, characterized in that the slope of the ramp function by means of a timing element ( 41 , 42 , 43 ) in the control device ( 26 ) can be predetermined. 7. The device according to claim 6, characterized in that the timing element ( 41 , 42 , 43 ) has an RC element ( 41 , 42 ) and in particular a further, additional capacitor ( 43 ). 8. Device according to one of claims 1 to 7, characterized in that the control device ( 26 ) for its energy supply by closing the switch arrangement ( 14 ) to the AC voltage source ( 8 ) is closed. 9. The device according to claim 8, characterized in that the control device ( 26 ) has a rectifier circuit ( 30 ) which converts the AC voltage (U ₀ ) into a DC supply voltage. 10. The device according to claim 9, characterized in that the rectifier circuit ( 30 ) has at least one rectifier diode ( 31 ).