DE232953C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 232953 CLASS 36 d. GROUP

. BRUNO HEINE in BERLIN.

Patented in the German Empire on March 10, 1910.

The invention relates to a device for the automatic control of the generation of Ozone air for ventilation purposes depending on its consumption in the from a central point supplied individual rooms and consists in that the air access to the ozonizer and thus the amount of ozone air-regulating flap generated in the apparatus " is controlled by an electromagnet that

ίο according to the total consumption of ozone air is excited in the individual rooms.

For this purpose lead from the central point in which the pressurized ozone air is generated becomes one of the

t5 most suitable points lines passing through stopcocks can be opened or closed as required. With the individual taps there are inevitably single-pole switches connected, which when the relevant cock is closed, an electrical line interrupt and close this before opening the tap. When the line is closed, a Part of the winding of a coil attached to the central point is excited, causing an in this protruding iron core is moved. So is available for everyone in the facility Stopcock a winding part on said spool; the one in the coil Magnetic core has a toothed rack at its upper end, which is connected to a valve shaft connected gear acts. The latter valve regulates the amount of the blower under Pressurized air flowing through the closed ozone apparatus so that, if a smaller amount by switching off some rooms with the associated stopcock Ozone air is needed, correspondingly less air goes to the ozone apparatus and the excess blows out through said valve or through a circulation line back to the blower goes. The individual windings on the coil or by the excitation of the individual The stroke caused by coil parts is suitable for the rooms to be ozonated determined amount of ozone air to be supplied in a certain time. The sink is wound in order to save double leads in such a way that each two coil parts one have a closed winding, both ends of which lead to the line switches or to one line of the line network located in the building, while one within the winding, determined by calibration, the coil with the return line is connected.

If the relevant tap is closed after the ozonization of a room has been completed and thus at the same time the electrical switch that is inevitably connected to it is opened, the relevant coil part is opened de-energized and, as a result, the spring acting on the core of the coil protruding into the coil Core pushed out of the coil by a corresponding amount. Consequently lets the air control valve through the movement of the rack and pinion less air into the ozone apparatus. This causes the rest of the, still

rooms to be supplied with ozone continue to be the same amounts of ozone air as before switching off of said faucet are supplied, and that even if all faucets except for one, the space ozonated by this tap will still be closed receives the same amount of ozone air.

In the device shown in the drawing, it is assumed that four individual

ίο Rooms are to be ozonated at different times. Accordingly, four ozone air shut-off cocks (I ₁ to « _{4 are} provided, which are inevitably connected to electrical single-pole switches b ₁ to b _4. Lead fuses C ₁ to C ₄ provided with leads a _x to d _A lead to the winding connections ^ ₁ to f _{4 of} the solenoid h, in which projects the magnetic core i. against the k expresses the core i provided collar a spring I, which has the tendency h push out the core of the coil. at the core is the toothing 'in which η to the drive gear of the air admission control valve j> acts through shaft 0. Depending on whether more or less coil parts receive current, the valve p is opened more or less and thus more or less air is pushed into the latter through the compressed air line between the fan q and the ozone generator t the fan conveys the line r, while the saturated ozone air from the ozone generator t passes through the ozone air supply lines U ₁ to U _{1 for} the ozone air shut-off cocks a _x to a ₄ - is supplied.

In the device shown in the drawing, a central ventilation system is assumed in which the main air supply fan ν pushes the supply air through the main air duct E or through the distribution air ducts A, B, C, D branching from this (Fig. 1). Next to Fig. 1 is a circuit diagram of the regulating solenoid with the corresponding lines (Fig. 2).

Claims (1)

Patent claim: Device for automatic regulation of the production of ozone air depending on their Consumption in the individual rooms supplied by a central point, characterized in that that the air inlet to the ozonizer is controlled by one Electromagnet is controlled, the winding of which consists of several, according to the with Ozone air is composed of electrical lines leading to the individual rooms to be supplied, in which at the same time as the opening of the ozone air flap of the individual room an electric current is closed. 1 sheet of drawings.