DE102006005670A1 - Air Ionization device, has signaling device coupled with high voltage supply line, and has electrical pulse circuit and signal generator with proper high voltage at high voltage supply line - Google Patents

Abstract

The invention relates to an air ionization device with tip electrodes, which are connected to a high-voltage supply line via electrical coupling elements, the latter being connectable to a high-voltage source, and with a signaling device which is coupled to the high-voltage supply line. In order to develop the air ionization device in such a way that the signaling device has only a low energy consumption and nevertheless provides an intense signal, it is proposed according to the invention that the signaling device have a pulse circuit and at least one signal transmitter which emits a pulsed signal when a proper high voltage is applied to the high voltage supply line.

Description

The The invention relates to a Luftionisationsgerät with tip electrodes, via electrical Coupling elements connected to a high voltage supply line are, wherein the high voltage supply line to a high voltage source connectable is, and with a signaling device coupled to the high voltage supply line is.

With Help of air ionization devices can be electrostatic Charges of dielectric objects, for example of flat material, especially films, are eliminated. In addition, unipolar electrical Charges are applied to an object to be charged. Such Luftionisationsgeräte are known for example from US Pat. No. 5,570,266. They include a plurality of tip electrodes connected to the high voltage supply line are coupled. To the high voltage supply line can a High voltage can be applied, so that at the tip electrodes a corona discharge is formed to generate free electrical Charges. In the Luftionisationsgerät known from US-A-5,570,266 comes additionally a signaling device with a signal generator in the form of a glow lamp used, which capacitively with the high voltage supply line is coupled and the user training the corona discharge visually displays. If the corona discharge collapses, it has As a result, the current in the high voltage supply line drops below a minimum value and thereby the glow lamp not enough energy to ignite provided. The signal of the glow lamp thus shows the training a corona discharge optically. The corona discharge falls, for example off if too low on the high voltage supply line High voltage is applied. This is for example in case of a fault of the high voltage source the case to which the high voltage supply line is connected is.

By The provision of a glow lamp allows the user to simple Check the operating condition of the air ionization unit. The from the glow lamp radiated light radiation is rather weak and can therefore detected by the user only from a relatively short distance become. The radiated light radiation is dependent on the electrical energy, the glow lamp available is provided. However, the provision of a relatively high energy goes at the expense of the ionization current at the tip electrodes, since the Total current provided by the high voltage source, for safety reasons in many cases is limited.

task The present invention is an air ionization of the above so-called type in such a way that the signaling device has only a low electrical energy consumption and yet provides an intense signal.

These Task is an air ionization device of the generic type according to the invention thereby solved, in that the signaling device has an electrical pulse circuit as well at least one upon application of a proper high voltage to the high voltage supply line having a pulsed signal emitting signal generator.

The draws invention Luftionisationsgerät particular characterized in that the signaling device is a pulsed Signal provides when on the high voltage supply line a proper high voltage is applied. The voltage applied to the high voltage supply line drops High voltage below a minimum value, so is the signal device no signal is output, however, is a proper high voltage before, a pulsed signal is provided. Such Design of the Luftionisationsgerätes is particularly helpful if the high voltage source to which the air ionization unit is connected is, at one for the user is not visible place, so that a optical function display, via which may be the high voltage source features, for the User can not be easily recognized.

from For example, a signal generator can generate a pulsed electrical signal or a pulsed radio signal are output. The electrical signal can for example be used to control a relay or it can a control unit, such as the control unit of a Machinery using the air ionization unit become.

From It is particularly advantageous if the at least one signal generator is designed as an optical and / or acoustic display element. This gives the opportunity by means of the signal generator, for example, a flashing light signal issue.

It has been shown to be a flashing optical signal from the user can be better recognized as a continuous light signal. Even a relatively weak one flashing light signal can therefore be reliably detected by the user. The flashing optical display element has only a relatively small electrical energy consumption, that is, the Si gnaleinrichtung requires only very little power. The ionization effect of Luftionisationsgerätes is therefore only very little affected by the use of the signaling device.

It can be provided that the flow of current from the high voltage supply line for pulse switching is less than 1 mA, in particular can be provided be that the current flow is less than 0.5 mA. The current flow For example, the pulse circuit can be about 100 μA.

From It is particularly advantageous if the at least one optical display element is designed as a light emitting diode. Light-emitting diodes are particularly energy-efficient and still have a high luminosity, so that the energy consumption of Signaling device can be kept very low.

Preferably the signal device comprises two signal transmitters connected in parallel, For example, two parallel optical display elements, in particular two parallel LEDs. This gives, for example, the Possibility, by means of the signaling device targeted in two different directions to deliver a pulsed signal.

at a preferred embodiment is the pulse circuit over at least one ohmic resistor and a rectifier element connected to the high voltage supply line. The pulse circuit is thus galvanically coupled to the high voltage supply line, wherein with the help of at least one ohmic resistance of the Pulse circuit provided voltage can be limited. Of the Use of the rectifier element has the advantage that the pulse circuit despite the connection of the high voltage supply line to a AC power source can be supplied with DC voltage. As a rectifying element is preferably a high voltage resistant Diode for use.

Around to keep the energy consumption of the pulse circuit very low, is it cheap when the pulse circuit one with the high voltage supply line having connected electrical energy storage, the concern a proper high voltage periodically rechargeable on the high voltage supply line and over the at least one signal generator is dischargeable. As electrical energy storage For example, a capacitor can be used. The energy store can be powered by the high voltage supply line, so that it charges up to a given state of charge, then itself briefly over the at least one signal generator, for example an optical display element, to unload. Subsequently It can be recharged, making it a more periodic Charge-discharge process forms and of the at least one Signaling a pulsed signal is emitted. The frequency of the Signals can be due to the storage capacity of the electrical energy storage to be influenced.

Preferably is the electrical energy storage via an ohmic resistance connected to the at least one signal generator. By the ohmschen Resistance becomes that from the energy store to the at least one Signaling device flowing Electricity limited, as well The frequency of the signal can be determined by the size of the ohmic resistance to be influenced. For example, it may be provided that a resistance of about 500 until about 1000 ohms is used, in particular a resistor of about 900 ohms.

The memory of the energy store may be, for example, about 100 μF.

at a particularly preferred embodiment of the invention Luftionisationsgerätes has the pulse circuit on a controllable switching element, in series is connected to the at least one signal generator and its control input with is connected to the electrical energy storage. As controllable Switching element can be used, for example, a transistor. The control input of the switching element is connected to the electrical energy storage connected, so that the switching element in response to the voltage applied to the energy storage Tension and thus depending on Charge state of the energy storage can be switched. Reached the applied voltage a predetermined upper threshold, so switches the controllable switching element through and over the at least one in Series arranged to switch element signal generator can starting from the energy storage briefly flow a discharge current until the Voltage falls below a lower threshold and thereby the electrical connection from the at least one signal generator to a Ground connection is interrupted.

It is particularly advantageous if the electrical energy store is connected to the control input of the switching element via a voltage-dependent control element. With the aid of the voltage-dependent control element, a clearly defined upper threshold value for switching through the controllable switching element can be specified. For example, it may be provided that the upper threshold is approximately 35 volts. When this threshold value is exceeded, the voltage-dependent control element releases the electrical connection between the energy store and the control input of the switching element, and falls below a lower threshold value, for example 30 volts, the electrical connection is interrupted again. The energy storage can thus be charged until it provides a voltage of at least 35 volts, then he can talk about the at least one signal generator discharged until the voltage provided by it falls below a value of about 30 volts. After falling below the value, the energy storage is recharged.

When voltage-dependent Control is preferably a diac used. The diac can be formed in the form of a semiconductor element.

Preferably are all Components of the pulse circuit are arranged on a circuit board, which in one supporting body of the air ionization device is integrated. Within the support body, the high voltage supply line run, the preferred over a high voltage resistant diode and at least one high voltage resistant ohmic resistance is connected to the pulse circuit. The support body can a counter electrode for form the formation of the corona discharge and, for example, as anodized aluminum profile be configured.

Around in the case of the embodiment of the at least one signal generator as optical display element the visual perceptibility of the display element additionally is to be improved, is provided in an advantageous embodiment that the at least one optical display element, an optical lens assigned. By means of the lens, the emanating from the display element Light radiation are scattered. This gives in particular the possibility to direct the light radiation in a specific direction. The latter can, for example, by the mounting conditions of the air ionization device be specified. The Luftionisationsgerät is in many cases in a machinery installed, and depending on the circumstances of the Mounting space, the flashing light signal by means of the lens, for example scattered in one direction, from which the indicator well is visible.

at In a preferred embodiment, the air ionization device has a protective cap made of a transparent material, which is the at least one optical Display element covered and forming an optical lens. The protective cap can, for example be made of a plastic material. It serves on the one hand as protection against mechanical impairment of the display element and on the other to the scattering of the emitted from the display element Light.

Preferably the Luftionisationsgerät is rod-shaped and has an elongate support body, being on one longitudinal side of the supporting body the tip electrodes and at a front side of the support body at least a signal generator, in particular an optical display element arranged are. The length of the supporting body and the number of used, spaced apart arranged tip electrodes can be charged depending on the size of the or to be unloaded object. The support body can For example, be assembled from several modules, where a front end module the signaling device with the at least having a signal generator. It is advantageous if the support body a Counter electrode forms.

Cheap is it when the high voltage supply line and the pulse circuit are poured into a potting compound, for example in a polyurethane material. By means of the potting compound can be the high voltage supply line as well as the pulse circuit electrically isolate in a structurally simple way, and at the same time the potting compound forms a mechanical support for the high voltage supply line and the pulse circuit off.

The The following description of a preferred embodiment of the invention serves in conjunction with the drawings for further explanation. Show it:

1 a partially separated side view of a Luftionisationsgerätes invention and

2 : a schematic representation of a signaling device of the in 1 shown Luftionisationsgerätes.

In the drawing is a total reference numeral 10 shown air ionization device, which forms a device for eliminating electrostatic charges of objects. It comprises an elongated support body 12 that runs along one long side 13 a groove 14 and having a high voltage supply voltage 16 receives, via a connecting cable 18 and a connector 19 to a high voltage power source in the form of a not shown in the drawing, known per se power supply is connected. About the connector 19 and the connection cable 18 can connect to the high voltage supply line 16 an alternating high voltage can be connected.

The air ionizer 10 has a plurality of spaced-apart tip electrodes, wherein in the drawing only a tip electrode 21 is shown. The tip electrodes 21 are each from one end of a coil spring 22 formed, which is the high voltage supply line 16 surrounds in the circumferential direction, wherein the tip electrodes 21 in the groove 14 plunge. The coil spring 22 forms an electrical coupling element, via which the respective tip electrode 21 capacitive with the high voltage voltage supply line 16 is coupled.

At its front carries the support body 12 one into the high voltage supply line 16 opposite direction stepwise expanding inner sleeve 24 from one to the insulator 12 screwed outer sleeve 25 is surrounded and the one PCB 27 with an electrical pulse circuit 28 receives. The pulse circuit 28 is via ohmic coupling elements with the high voltage supply voltage 16 connected. The ohmic coupling elements are as high voltage resistant diode 30 and two high voltage resistant ohmic resistors 31 . 32 configured, which are arranged in series with each other. The high voltage supply line 16 is just like the circuit board 27 and the diode 30 as well as the high-voltage resistant resistors 31 . 32 in a potting compound 33 embedded, preferably in a polyurethane material, which on the one hand ensures the electrical insulation of said components and on the other hand mechanically supports said components.

The front side is the Luftionisationsgerät 10 from a protective cap 34 finished, which is made of a transparent material and an optical lens 35 forms with a convex outside 36 , The protective cap 34 surrounds two auto switches, which are connected to the circuit board 27 connected optical display elements in the form of two LEDs 38 . 39 are designed.

The electric pulse circuit 28 is in 2 shown schematically. It comprises a controllable switching element in the form of a transistor 41 in series with the light emitting diodes 38 . 39 is switched. The light-emitting diodes 38 . 39 are connected in parallel with each other and have an ohmic resistance 43 with an electrical energy store in the form of a capacitor 45 connected via the diode 30 and the two high-voltage resistant resistors 31 . 32 to the high voltage supply line 16 connected. About a voltage-dependent control in the form of a Diacs 47 and in a row to Diac 47 switched resistance 48 is the capacitor 45 to the control input of the transistor 41 connected. Between the control input of the transistor 41 and a ground connection 51 is an ohmic resistance 52 switched, and parallel to the capacitor 45 are in series with each other two ohmic resistors 54 . 55 connected to a ground connection 57 are connected. To other ground connections 58 respectively. 59 are the capacitor 45 and the transistor 41 connected.

Will the high voltage supply line 16 is acted upon by the power supply, not shown in the drawing, with a proper high voltage of about 6.5 kV, so ignites at the tip electrodes 21 a corona discharge, so that free electrical charge carriers are formed for charging or discharging a dielectric object. As high voltage here an AC voltage is used. About the diode 30 , the high voltage resistant resistors 31 . 32 as well as the other ohmic resistances 54 . 55 is the high voltage supply line 16 with the mass connection 57 in electrical connection. The resistors 31 . 32 . 54 . 55 form a voltage divider. The on the resistors 54 and 55 decreasing voltage is from the capacitor 45 tapped. This is done via the diode 30 a half-wave of the at the high voltage supply line 16 suppressed high voltage. The capacitor 45 is charged until the voltage applied to it reaches an upper threshold of, for example, 35 volts. When the threshold value is reached, the diac ignites 47 and the transistor 41 is switched through. This has the consequence that the electrical connection between the LEDs 38 . 39 and the ground connection 59 over the transistor 41 is released and the capacitor 45 over the ohmic resistance 43 and the two LEDs 38 . 39 can discharge. This in turn causes the two LEDs 38 . 39 light up at short notice. By discharging the capacitor 45 the voltage applied to it decreases. After reaching a lower threshold of, for example, 30 volts disables the diac 47 again and also the transistor 41 goes into its locked state. This will be the electrical connection between the light emitting diodes 38 . 39 and the ground connection 59 interrupted, the light signal of the LEDs 38 . 39 not applicable and the capacitor 45 is recharged until the voltage applied to it again reaches the upper threshold of, for example, 35 volts, so that then the Diac 47 ignites again and the transistor 41 is switched through again. This process repeats periodically, for example at a frequency of about 1 Hz.

By means of the pulse circuit 28 and the two LEDs 38 . 39 Thus, upon application of a proper high voltage to the high voltage supply line 16 generates a periodic light signal. The of the light-emitting diodes 38 . 39 emitted light radiation is from the optical lens 35 the protective cap 34 in the high voltage supply line 16 scattered half space scattered.

Drops on the high voltage supply line 16 applied high voltage below a minimum value, then the capacitor 45 do not charge so far that the voltage applied to it is the upper threshold of the Diacs 47 reached. The diac 47 then does not ignite and therefore also turns on the transistor 41 not through, so that the flashing signal of the LEDs 38 . 39 eliminated. The minimum value of the high voltage, below which the flashing signal of the LEDs 38 . 39 can be omitted by the ratio of the resistance values of the resistors 31 . 32 to the resistance values of the resistors 54 . 55 be specified.

Due to the optical flashing signal coming from the LEDs 38 . 39 Thus, a user can also be relatively far away from the air ionization device 10 easily recognize that on the high voltage supply line 16 a proper high voltage is applied.

Claims (14)

Air ionization apparatus having tip electrodes, which are connected via electrical coupling elements to a high voltage supply line, wherein the high voltage supply line is connectable to a high voltage source, and to a signal device which is coupled to the high voltage supply line, characterized in that the signal device comprises an electric pulse circuit ( 28 ) and at least one upon application of a proper high voltage to the high voltage supply line ( 16 ) a pulsed signal emitting signal transmitter ( 38 . 39 ) having. Luftionisationsgerät according to claim 1, characterized in that the at least one signal generator as an optical and / or acoustic display element ( 38 . 39 ) is configured. Luftionisationsgerät according to claim 2, characterized in that the at least one optical display element as a light emitting diode ( 38 . 39 ) is configured. Luftionisationsgerät according to claim 1, 2 or 3, characterized in that the signaling device comprises two parallel-connected signal generator ( 38 . 39 ) having. Luftionisationsgerät according to any one of the preceding claims, characterized in that the electrical pulse circuit ( 28 ) via at least one ohmic resistance ( 31 . 32 ) and a rectifier element ( 30 ) with the high voltage supply line ( 16 ) connected is. Luftionisationsgerät according to any one of the preceding claims, characterized in that the electrical pulse circuit ( 28 ) one with the high voltage supply line ( 16 ) connected electrical energy storage ( 45 ), which upon application of a proper high voltage to the high voltage supply line ( 16 ) is periodically rechargeable and via the at least one signal generator ( 38 . 39 ) is dischargeable. Luftionisationsgerät according to claim 6, characterized in that the electrical energy storage ( 45 ) via an ohmic resistor ( 43 ) with the at least one signal generator ( 38 . 39 ) connected is. Luftionisationsgerät according to claim 6 or 7, characterized in that the electrical pulse circuit ( 28 ) a controllable switching element ( 41 ) arranged in series with the at least one signal generator ( 38 . 39 ) is switched and the control input to the electrical energy storage ( 45 ) connected is. Luftionisationsgerät according to claim 8, characterized in that the electrical energy storage ( 45 ) via a voltage-dependent control element ( 47 ) with the control input of the switching element ( 41 ) connected is. Luftionisationsgerät according to claim 9, characterized in that the control as Diac ( 47 ) is configured. Luftionisationsgerät according to any one of claims 2 to 10, characterized in that the at least one optical display element ( 38 . 39 ) an optical lens ( 35 ) assigned. Luftionisationsgerät according to any one of claims 2 to 11, characterized in that the Luftionisationsgerät ( 10 ) a protective cap ( 34 ) made of a transparent material, which comprises the at least one optical display element ( 38 , 39 ) and the one optical lens ( 35 ) trains. Luftionisationsgerät according to any one of the preceding claims, characterized in that the Luftionisationsgerät ( 10 ) is rod-shaped and an elongated support body ( 12 ), wherein on one longitudinal side ( 13 ) of the supporting body ( 12 ) the tip electrodes ( 21 ) and on a front side of the support body ( 12 ) at least one signal generator ( 38 . 39 ) are arranged. Air ionization apparatus according to one of the preceding claims, characterized in that the high-voltage supply line ( 16 ) and the electrical pulse circuit ( 28 ) in a potting compound ( 33 ) are poured.