DE873562C - Impulse generator - Google Patents

Description

Pulse Generators The invention relates to pulse generators such as they are used in particular for electric pasture fences and other deterrents will. You need strong impulses for this, but which should be so short-term, that they cannot endanger living beings.

The invention should now have even smaller pulse times for larger ones Pulses are made possible than they can be achieved with the known pulse generators can. In addition, the known pulse generators are subject to wear that theirs Severely impair performance, functional reliability and service life while , in the case of the pulse generator according to the invention, this is far less the case is.

In the case of the known pulse generators, the aim is to use the mains voltage of usually 2 -,> 0 volts or even below this line voltage lying voltage as input voltage or working voltage (of the pulse generator to work. According to the invention, however, is about double or one more higher voltage selected as input voltage or working voltage of the pulse generator, which is on the charging capacitor or on the pulse tube during the pulse pauses.

In the figure - an embodiment of the invention is shown, However, the invention is not intended to be restricted to this example.

By known means, such as. B. by a transformer, the Line voltage increased to at least about twice its value, and this increased Voltage is fed to points t and 2 of the circuit as working voltage. Through this the, Kärndensator 3-over to regulate the pulse times required resistance 4.-charged to this high voltage. The one in Künden, sator 3 stored = amount of energy -is greater than with the lower mains voltage. The higher charging voltage of the capacitor now enables the Ignition voltage "of the non-externally heated gas discharge tube 5 by increasing the Distance 6 of their electrodes. For the area in the vicinity of the mains voltage is the Electrode spacing in the known, non-externally heated gas discharge tubes low and very critical of the applied voltage, of the gas pressure, of the respective The atomization state of the electrodes in the course of the service life etc. depends on there Smallest changes in the electrode spacing as a result of vibrations or as a result of deposits from sputtering easily lead to failure of the whole arrangement. By increasing the ignition voltage the discharge process is lifted out of this critical area, so that in The course of operation. occurring changes in the operating conditions become significant make them less noticeable, in particular minor changes in the distance between the electrodes -as they- occur through normal vibrations, .the 'functional reliability of the Attachment in any way.

Furthermore, the higher ignition voltage results in greater safety of the Turning the glow discharge into the desired arc discharge, not to mention from the stronger impulse - in the transformer T, that through the larger one in the capacitor 3 accumulated amount of energy is created. At the same time, the pulse time is shortened, so @ that pulses of 1 / 4o to 1 / 5o - io-3 seconds can be achieved, their brevity for the harmlessness of the pulse device and for the sufficient stench id the impulse is of great importance.

Any suitable tube can be used as the pulse tube. Particularly However, it is expedient to use such a tube in which the cathode according to the invention such aw # is formed that its metallic framework, e.g. B. by sintering, on all sides is penetrated by insulating material and their feeds also by insulating material are covered against the Entfädüng: d. At least on the side facing the anode is, the insulating material should be so porous or granular. its, -it from the discharge hzw .. -your- electric current. can be enforced. This creates a uniform Distribution of the glow or arc discharge on the cathode surface is guaranteed, which in turn results in even working.

Also inside. The metal framework of the cathode can be made of insulating material , be penetrated and also the lead to the cathode, of insulating material surround,. be embedded or sintered in @ this. - --- As the insulation material while the tube is working, it is gradually eroded by @ the @ discharge; change the discharge conditions during. the life span.- Uri to compensate for this change ' and to be able to adjust the ignition voltage subsequently, is according to the invention the distance between the anode and the cathode is made variable by the fact that the part the anode, which is closest to the cathode, is made heavy enough in terms of weight and is attached to a holder which is eccentric about an anode-cathode axis Axis. is pivotable and / or bendable in itself. In addition, the leads to the Cathode in a known manner, through insulating coatings from the discharge and the vessel walls in the vicinity of the electrode feed-through from the atomized metal particles Keep shields free.

The figure shows a discharge vessel in which in the discharge space 5 enclosed by a glass wall 7, an anode 8 of the cathode 9 is opposite. The anode is on a holder io around the point i i with resistance rotatable by a strut ra @, which also serves as power supply 13 attached to the piston of the tube., _.

The cathode 9, surrounded on all sides by insulating material, sits on the Feed 1q., Which in a known manner are closely surrounded by insulating material v5 or in such embedded resp. is sintered in. Also the conductive material of the cathode can be sintered in insulating material.

In particular, shielding plates 16 are on the anode and cathode sides and 17 made of metal or insulating material, such as. G. Mica, attached to the outer part of the Do not touch the inner piston wall and prevent it from penetrating. from. atomized metal or Prevent insulating material particles in the space behind them and therefore keep the glass walls there free of disruptive deposits and discharges.

If now the discharge conditions of the tube in the course of its life change so that z. B. -no more transition to arc discharge takes place, one can .by a suitable tapping vibration, which swings the arm io about the pivot point i i or its bending results in the position of the anode change relative to the cathode in such a way that the electrical Witderstand between the anode and cathode is adapted to the changed discharge md @ inguizgen _ to the impulses in the. desired frequency and strength-to maintain: To the pivoting of the .Anode.8 as simple as possible. and to make it safe, it is expedient to -an the The wall of the discharge tube to mark the points i8 or as dampening Document, e.g. B. as a rubber pad to train, others: the thereby: steered Knock the desired effect to one side or the other even with mirrored Tubes that cannot be seen into are reached when the weight of the anode 8 is big enough. You can also - off the anode. Making soft iron and the Swivel movement. generated by an electromagnet that is placed at certain points outside or inside, the tube to act.

By using such a tube in connection with: G With the increased voltage, the service life and operational safety of the pulse generator will be increased significantly increased.

Claims (7)

PATENT CLAIMS: .i. Pulse generator operated from the power grid, especially for time markers or deterrents such as electric pasture fences Od. Like., characterized in that a discharge tube to a non-externally heated gas capacitor connected in parallel to about twice the mains voltage or more charged and connected in series with the primary winding of a transformer Gas discharge tube is discharged. 2. Pulse generator according to claim i, characterized by the use of a non-externally heated gas discharge tube, the ignition voltage of which is in the order of magnitude of about 300 volts or above. 3. Pulse generator according to claim i or 2, characterized in that means are provided to the Discharge conditions, e.g. B. an arc discharge, and especially the pulse frequency and strength during the life of the tube as constant as possible to keep that In particular, the cathode consists of a metal frame that is covered on all sides with insulating material penetrated or embedded or sintered in such that is porous or granular is enough to let the electric current through. q .. Pulse generator according to claim i to 3, characterized in that the lead to the cathode, also from Surrounding insulating material, embedded in such or sintered. 5. Pulse generator according to claim i or following, characterized in that the distance between Anode and cathode can be changed, e.g. B. by eccentric to the axis of the tube Pivoting mounting under mechanical resistance: the anode, by means of suitable Action is changeable in their position. 6. pulse generator according to claim i or following, characterized in that markings are attached to the tube, which indicate the direction of the most favorable action. 7. pulse generator according to claim. 6, characterized, .that the markings for knocking on are certain shock-absorbing documents, such as. B. rubber plates that are on the outside of the tube. B. Pulse generator according to claim 5, characterized in that the anode contains iron parts in order to move the anode by one or more externally or internally attached electromagnets. G. Pulse generator according to claim 1 or the following, characterized in that screens are fitted in the tube which in particular keep the anode and cathode ducts free from interfering inner wall coverings and from discharges which could produce an undesired course of the discharge.