CN2611349Y - Circuit of ozonator - Google Patents

Abstract

The utility model discloses an ozone generating circuit aiming at providing an ozone generating circuit with simple circuit, low price and high controllability. The ozone generating circuit comprises a first capacitor, two-way controllable silicon, a transformer, and a power supply successively connected to form a closed loop, the two-way controllable silicon is connected with the controllable silicon trigger circuit. The two-way controllable silicon trigger circuit is formed by one end of a second resistance and a second capacitor connected in parallel connected with the two-way trigger tube of a first resistance and the other end thereof connected with the power supply and the transformer. The two-way trigger tube is connected with the two-way controllable silicon, and the first resistance is respectively connected with the first capacitor and the two-way controllable silicon.

Description

The ozonizer circuit

Technical field

The utility model relates to a kind of circuit, relates to a kind of ozonizer circuit in particular.

Background technology

Two schemes of the general employing of ozonizer circuit, a scheme is high-voltage inverted, promptly will boost through transformer after commercial power rectification, the inversion earlier again, adds on the ozone plate (pipe).This scheme power can be done greatlyyer, but when utilizing air as source of the gas, can produce a certain amount of nitride.Do not meet the requirement of the desired low frequency and narrow pulse of high purity ozonizer.Another scheme also is that elder generation is with the commercial power rectification, after current limiting element is given capacitance energy storage, energy on the reservoir capacitance is added on the pulse transformer by switching element (being generally silicon controlled rectifier), and the high voltage narrow pulse voltage that produces on the pulse transformer directly is added on the ozone plate (pipe).In this scheme, when current limiting element adopts resistance, resistance heating, not only efficient is low but also need heat abstractor.When using current limit by inductance, necessary with two silicon controlled rectifiers, a SCR control electric capacity charging, another control capacitance is discharged through transformer, must strictness prevent the conductings simultaneously of two silicon controlled rectifiers technically.

The utility model content

The utility model is in order to overcome weak point of the prior art, to provide a kind of simple and reliable, and price is low, the ozonizer circuit that efficient is high.

The utility model is achieved through the following technical solutions:

A kind of ozonizer circuit comprises first electric capacity, and described first electric capacity, bidirectional thyristor, transformer, power supply connect to form the loop successively, and described bidirectional thyristor is connected with the bidirectional thyristor triggering circuit.Described bidirectional thyristor triggering circuit be second resistance with the second electric capacity parallel connection after an end be connected with two-way trigger tube with first resistance respectively, the other end is connected with transformer with power supply respectively, described two-way trigger tube is connected with described bidirectional thyristor, and described first resistance is connected with bidirectional thyristor with described first electric capacity respectively.

The utlity model has following beneficial effect:

1. the utility model circuit is simple, and price is low.

2. owing to do not adopt heat abstractor, efficient height.

Description of drawings

Fig. 1 is the ozonizer schematic circuit.

Embodiment

Below in conjunction with accompanying drawing the utility model is further described.

As shown in Figure 1, first electric capacity, bidirectional thyristor, transformer are connected the back successively be connected, form the loop with power supply.Be connected with high-tension transformer, two-way trigger tube and first resistance respectively after second resistance and the second electric capacity parallel connection.The two-way the other end is connected with bidirectional thyristor.First resistance is connected with an end of first electric capacity, promptly forms the ozonizer circuit.

When the voltage at AB two ends among the figure reaches trigger voltage, bidirectional thyristor is triggered, power supply, first capacitor C 1, the excitation inductance of bidirectional thyristor and transformer produces resonance, transformer produces high pressure under the effect of resonance current, this high pressure is added on the ozone plate (pipe), when resonance current is 0, bidirectional thyristor turn-offs, fill with reverse voltage on first electric capacity this moment, because the civil power momentary value of 220V is variable, when voltage of supply reduces, when the current potential at AB two ends had reached The Trigger of Bidirectional Triode Thyristor voltage again, bidirectional thyristor was triggered again, the output of transformer back discharge, the bidirectional thyristor secondary that is triggered in every half period of voltage of supply, thereby the pulsed operation frequency of this circuit is 200Hz.The width of pulse is determined by the excitation inductance of first electric capacity and transformer.Because trigger voltage is a stationary adjustable, so its output is stablized adjustable.

Claims (2)

1. an ozonizer circuit comprises first electric capacity, it is characterized in that, described first electric capacity, bidirectional thyristor, transformer, power supply connect to form the loop successively, and described bidirectional thyristor is connected with the bidirectional thyristor triggering circuit.

2. ozonizer circuit according to claim 1, it is characterized in that, described bidirectional thyristor triggering circuit be second resistance with the second electric capacity parallel connection after an end be connected with two-way trigger tube with first resistance respectively, the other end is connected with transformer with power supply respectively, described two-way trigger tube is connected with described bidirectional thyristor, and described first resistance is connected with bidirectional thyristor with described first electric capacity respectively.

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