CN203520187U - Bioreactor thermostatic control circuit for industrial wastewater exhaust-gas treatment - Google Patents

Abstract

The utility model discloses a bioreactor thermostatic control circuit for industrial wastewater exhaust-gas treatment. The bioreactor thermostatic control circuit comprises a firs resistor, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a sixth resistor, a first capacitor, a second capacitor, a bidirectional thyristor, a diode, a bridge type rectification circuit, a first light emitting diode, a second light emitting diode, a first potentiometer, a second potentiometer, a time base chip, a transformer, a switch and a resistance wire. According to the bioreactor thermostatic control circuit for industrial wastewater exhaust-gas treatment, a controller changes the wiring of a main circuit or a control circuit according to a predetermined sequence, controls the opening and closing of the bidirectional thyristor by changing the resistance value of a circuit, and further controls the heating of the resistance wire so as to realize the purpose of thermostatic control.

Description

The constant temperature control circuit that is used for the bio-reactor of industrial waste water exhaust-gas treatment

Technical field

The utility model relates to a kind of control circuit, relates in particular to a kind of constant temperature control circuit of the bio-reactor for industrial waste water exhaust-gas treatment.

Background technology

Society is more and more paid attention to the protection of environment; various industrial waste water waste gas need to just can be discharged in physical environment through a series of processing; bio-reactor is in to the processing of industrial waste water waste gas; it has that cost is low, equipment is simple, effect remarkable advantage and applied to widely every field; when bio-reactor is worked; guarantee that wherein the normal existence environment of microorganism is particularly important; present bio-reactor part is set temperature control system not, and its temperature control system of set temperature control system is very complicated.

Utility model content

The purpose of this utility model is just to provide in order to address the above problem a kind of constant temperature control circuit of the bio-reactor for industrial waste water exhaust-gas treatment simple in structure.

The utility model is achieved through the following technical solutions above-mentioned purpose:

A constant temperature control circuit for the bio-reactor of industrial waste water exhaust-gas treatment, comprises the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, the 6th resistance, the first electric capacity, the second electric capacity, bidirectional thyristor, diode, bridge rectifier circuit, the first light emitting diode, the second light emitting diode, the first potentiometer, the second potentiometer, time base chip, transformer, switch and resistance wire, the first end of described resistance wire is connected with the first end of the first end of described switch and a winding of described transformer respectively, the second end of described switch is connected with positive source, the second end of described resistance wire is connected with the first anode of described bidirectional thyristor, the second anode of described bidirectional thyristor is connected with the second end of the negative pole of power supply and a winding of described transformer respectively, the control end of described bidirectional thyristor is connected with the first end of described the first resistance, the second end of described the first resistance is connected with the output terminal of the positive pole of described the first light emitting diode base chip when described respectively, the negative pole of described light emitting diode is connected with the first end of described the 4th resistance, the second end of described the 4th resistance respectively with the first end of described the second resistance, the earth terminal of base chip when described, the first end of described the 3rd resistance, the first end of described the 5th resistance, the first ac input end of the positive pole of described diode and described bridge rectifier circuit is connected, and the voltage controling end of the second end of described the first electric capacity base chip when described is connected, and the second end of described the second resistance is the low triggering end of base chip when described respectively, the first end of described the first potentiometer is connected with the sliding end of described the first potentiometer, and the second end of described the first potentiometer is the clear terminal of base chip when described respectively, the power end of base chip when described, the first end of described the second potentiometer, the positive pole of described the second light emitting diode, the negative pole of described diode is connected with the first end of described the 6th resistance, and the positive pole of described the second light emitting diode is connected with the second end of described the 5th resistance, and the second end of described the 3rd resistance is the high-triggering end of base chip when described respectively, the second end of described the second potentiometer is connected with the sliding end of described the second potentiometer, the discharge end ground connection of base chip when described, the second end of described the 6th resistance is connected with the second end of described minute the second electric capacity and the second ac input end of described bridge rectifier circuit respectively, the cathode output end of described bridge rectifier circuit is connected with the first end of the Secondary Winding of described transformer, and the cathode output end of described bridge rectifier circuit is connected with the second end of the Secondary Winding of described transformer.

The beneficial effects of the utility model are:

The utility model is for the constant temperature control circuit of the bio-reactor of industrial waste water exhaust-gas treatment, controller changes the wiring of main circuit or control circuit according to predefined procedure, in change circuit, resistance value is controlled the folding of bidirectional thyristor, the further heating of controlling resistance silk, thus reach thermostatically controlled object.

Accompanying drawing explanation

Fig. 1 is that the utility model is for the circuit diagram of the constant temperature control circuit of the bio-reactor of industrial waste water exhaust-gas treatment.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1, the utility model, for the constant temperature control circuit of the bio-reactor of industrial waste water exhaust-gas treatment, comprises the first resistance R 1, the second resistance R 2, the 3rd resistance R 3, the 4th resistance R 4, the 5th resistance R 5, the 6th resistance R 6, the first capacitor C 1, the second capacitor C 2, bidirectional thyristor SCR, diode D, bridge rectifier circuit BR, the first LED 1, the second LED 2, the first potentiometer RP1, the second potentiometer RP2, time base chip IC, transformer T, K switch and resistance wire Rs, the first end of resistance wire Rs is connected with the first end of the first end of K switch and a winding of transformer T respectively, the second end of K switch is connected with the positive pole of power supply, the second end of resistance wire Rs is connected with the first anode of bidirectional thyristor SCR, the second anode of bidirectional thyristor SCR is connected with the second end of the negative pole of power supply and a winding of transformer T respectively, the control end of bidirectional thyristor SCR is connected with the first end of the first resistance R 1, the second end of the first resistance R 1 respectively with the positive pole of the first LED 1 with time base chip IC output terminal be connected, the negative pole of light emitting diode D is connected with the first end of the 4th resistance R 4, the second end of the 4th resistance R 4 respectively with the first end of the second resistance R 2, time base chip IC earth terminal, the first end of the 3rd resistance R 3, the first end of the 5th resistance R 5, the first ac input end of the positive pole of diode D and bridge rectifier circuit BR is connected, the second end of the first capacitor C 1 with time base chip IC voltage controling end be connected, the second end of the second resistance R 2 respectively with time base chip IC low triggering end, the first end of the first potentiometer RP1 is connected with the sliding end of the first potentiometer RP1, the second end of the first potentiometer RP1 respectively with time base chip IC clear terminal, time base chip IC power end, the first end of the second potentiometer RP2, the positive pole of the second LED 2, the negative pole of diode D is connected with the first end of the 6th resistance R 6, and the positive pole of the second LED 2 is connected with the second end of the 5th resistance R 5, the second end of the 3rd resistance R 3 respectively with time base chip IC high-triggering end, the second end of the second potentiometer RP2 is connected with the sliding end of the second potentiometer RP2, time base chip IC discharge end ground connection, the second end of the 6th resistance R 6 is connected with minute the second end of the second capacitor C 2 and the second ac input end of bridge rectifier circuit BR respectively, the cathode output end of bridge rectifier circuit BR is connected with the first end of the Secondary Winding of transformer T, and the cathode output end of bridge rectifier circuit BR is connected with the second end of the Secondary Winding of transformer T.

The utility model is as follows for the principle of work of the constant temperature control circuit of the bio-reactor of industrial waste water exhaust-gas treatment:

During passing through in this constant temperature control circuit, base chip IC changes the wiring of main circuit or control circuit and changes resistance value in circuit according to predefined procedure and controls the heating of whether connecting controlling resistance silk of the folding controlling resistance silk Rs of bidirectional thyristor SCR, thereby reaches thermostatically controlled object.

Claims (1)

1. for a constant temperature control circuit for the bio-reactor of industrial waste water exhaust-gas treatment, it is characterized in that: comprise the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, the 6th resistance, the first electric capacity, the second electric capacity, bidirectional thyristor, diode, bridge rectifier circuit, the first light emitting diode, the second light emitting diode, the first potentiometer, the second potentiometer, time base chip, transformer, switch and resistance wire, the first end of described resistance wire is connected with the first end of the first end of described switch and a winding of described transformer respectively, the second end of described switch is connected with the positive pole of power supply, the second end of described resistance wire is connected with the first anode of described bidirectional thyristor, the second anode of described bidirectional thyristor is connected with the second end of the negative pole of power supply and a winding of described transformer respectively, the control end of described bidirectional thyristor is connected with the first end of described the first resistance, the second end of described the first resistance is connected with the output terminal of the positive pole of described the first light emitting diode base chip when described respectively, the negative pole of described light emitting diode is connected with the first end of described the 4th resistance, the second end of described the 4th resistance respectively with the first end of described the second resistance, the earth terminal of base chip when described, the first end of described the 3rd resistance, the first end of described the 5th resistance, the first ac input end of the positive pole of described diode and described bridge rectifier circuit is connected, and the voltage controling end of the second end of described the first electric capacity base chip when described is connected, and the second end of described the second resistance is the low triggering end of base chip when described respectively, the first end of described the first potentiometer is connected with the sliding end of described the first potentiometer, and the second end of described the first potentiometer is the clear terminal of base chip when described respectively, the power end of base chip when described, the first end of described the second potentiometer, the positive pole of described the second light emitting diode, the negative pole of described diode is connected with the first end of described the 6th resistance, and the positive pole of described the second light emitting diode is connected with the second end of described the 5th resistance, and the second end of described the 3rd resistance is the high-triggering end of base chip when described respectively, the second end of described the second potentiometer is connected with the sliding end of described the second potentiometer, the discharge end ground connection of base chip when described, the second end of described the 6th resistance is connected with the second end of described the second electric capacity and the second ac input end of described bridge rectifier circuit respectively, the cathode output end of described bridge rectifier circuit is connected with the first end of the Secondary Winding of described transformer, and the cathode output end of described bridge rectifier circuit is connected with the second end of the Secondary Winding of described transformer.

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