A kind of ultrasonic cleaning machine circuit
Technical field
The utility model relates to the supersonic wave cleaning machine field, relates in particular to a kind of ultrasonic cleaning machine circuit.
Background technology
Supersonic wave cleaning machine adopts the principle of Ultrasonic Cleaning, to reach the effect of cleaning and washing away the workpiece surfaces externally and internally with the break shock wave that produces of bubble in liquid, can reach the comprehensively cleaning performance of cleaning of object, especially to deep hole, blind hole, it is optimal equipment that tongue and groove cleans, and does not affect material and the precision of any object.At present, supersonic wave cleaning machine is widely used in the cleaning of precision apparatus and parts.Existing supersonic wave cleaning machine, in the process of using, often need by manually water filling and draining in the service sink, this will occur need to be repeatedly in the service sink water filling reach the water yield requirement of cleaning, can not realize the automation of cleaning process, need larger hand labor intensity.
The utility model content
Technical problem to be solved in the utility model provides a kind of ultrasonic cleaning machine circuit, adds water inlet module and drain module, realizes automatic feeding water and the draining of supersonic wave cleaning machine.
The technical scheme that the utility model solves the problems of the technologies described above is as follows: a kind of ultrasonic cleaning machine circuit, comprise AC power, main control module, driver module, cleaning module and heating module, described AC power connects rectification filtering module and main control module, described rectification filtering module connects driver module, described driver module connects cleaning module, described main control module connects heating module, and described main control module connects the water inlet module, and described main control module connects drain module.
On the basis of technique scheme, the utility model can also be done following improvement.
Further, described water inlet module comprises entering water electromagnetic valve, one end of described entering water electromagnetic valve connects the first stationary contact of double-pole single throw K4, the other end connects the second stationary contact of double-pole single throw K4, the first movable contact ground connection of described double-pole single throw K4, the second movable contact of described double-pole single throw K4 connects power supply, the other relay K 2 that is provided with of described double-pole single throw K4, described relay K 2 adhesives or disconnection double-pole single throw K4, the colelctor electrode of one end connecting triode Q1 of described relay K 2, the other end of described relay K 2 connects the negative pole of diode D2, the colelctor electrode of the anodal connecting triode Q1 of described diode D2, the grounded emitter of described triode Q1, the base stage contact resistance R1 of described triode Q1, described resistance R 1 connects main control module.
Further, the two ends parallel diode D1 of described water inlet battery valve, the positive pole of described diode D1 connects the first stationary contact of double-pole single throw K4, and the negative pole of described diode D1 connects the second stationary contact of double-pole single throw K4.
Further, described drain module comprises drain solenoid valve, one end of described drain solenoid valve connects the first stationary contact of double-pole single throw K3, the other end connects the second stationary contact of double-pole single throw K3, the first movable contact ground connection of described double-pole single throw K3, the second movable contact of described double-pole single throw K3 connects power supply, the other relay K 1 that is provided with of described double-pole single throw K3, described relay K 1 adhesive or disconnection double-pole single throw K3, the colelctor electrode of one end connecting triode Q2 of described relay K 1, the other end of described relay K 1 connects the negative pole of diode D4, the colelctor electrode of the anodal connecting triode Q2 of described diode D4, the grounded emitter of described triode Q2, the base stage contact resistance R2 of described triode Q2, described resistance R 2 connects main control module.
Further, the two ends parallel diode D3 of described draining battery valve, the positive pole of described diode D3 connects the first stationary contact of double-pole single throw K3, and the negative pole of described diode D3 connects the second stationary contact of double-pole single throw K3.
The beneficial effects of the utility model are: added water inlet module and drain module on the basis of existing ultrasonic cleaning machine circuit, the water inlet module is connected main control module with drain module, water inlet and the draining of automatic control supersonic wave cleaning machine have been realized, having reduced the people is labour intensity and the time that adds water and draining, has improved the service efficiency of supersonic wave cleaning machine.Diode D1 and D3 prevent that current flowing in the magnetic valve from producing reverse electromotive force, and the interference of integrated circuit is arranged; In like manner, diode D2 and D4 prevent that current flowing in the relay from producing reverse electromotive force, and the interference of integrated circuit is arranged.Like this, just eliminate in the circuit interference that the inverse electromotive force that produces because of current flowing in the coil of relay and magnetic valve brings.
Description of drawings
Fig. 1 is the connection layout of the modules of a kind of ultrasonic cleaning machine circuit of the utility model;
Fig. 2 is the circuit diagram of the water inlet module of a kind of ultrasonic cleaning machine circuit of the utility model;
Fig. 3 is the circuit diagram of the drain module of a kind of ultrasonic cleaning machine circuit of the utility model.
In the accompanying drawing, the list of parts of each label representative is as follows:
1, the first movable contact of double-pole single throw K4,2, the first stationary contact of double-pole single throw K4,3, the second movable contact of described double-pole single throw K4,4, the second stationary contact of described double-pole single throw K4,5, the first movable contact of double-pole single throw K3,6, the first stationary contact of double-pole single throw K3,7, the second movable contact of double-pole single throw K3,8,5, the second stationary contact of double-pole single throw K3.
The specific embodiment
Below in conjunction with accompanying drawing principle of the present utility model and feature are described, institute gives an actual example and only is used for explaining the utility model, is not be used to limiting scope of the present utility model.
As shown in Figure 1, a kind of ultrasonic cleaning machine circuit described in the utility model, comprise AC power, main control module, driver module, cleaning module and heating module, described AC power connects rectification filtering module and main control module, described rectification filtering module connects driver module, and described driver module connects cleaning module, and described main control module connects heating module, described main control module connects the water inlet module, and described main control module connects drain module.
Fig. 2 is the circuit diagram of the water inlet module of a kind of ultrasonic cleaning machine circuit of the utility model, described water inlet module comprises entering water electromagnetic valve, one end of described entering water electromagnetic valve connects the first stationary contact 2 of double-pole single throw K4, the other end connects the second stationary contact 4 of double-pole single throw K4, the first movable contact 1 ground connection of described double-pole single throw K4, the second movable contact 3 of described double-pole single throw K4 connects power supply, the other relay K 2 that is provided with of described double-pole single throw K4, described relay K 2 adhesives or disconnection double-pole single throw K4, the colelctor electrode of one end connecting triode Q1 of described relay K 2, the other end of described relay K 2 connects the negative pole of diode D2, the colelctor electrode of the anodal connecting triode Q1 of described diode D2, the grounded emitter of described triode Q1, the base stage contact resistance R1 of described triode Q1, described resistance R 1 connects main control module, the two ends parallel diode D1 of described water inlet battery valve, the positive pole of described diode D1 connects the first stationary contact of double-pole single throw K4, and the negative pole of described diode D1 connects the second stationary contact of double-pole single throw K4.
Fig. 3 is the circuit diagram of the drain module of a kind of ultrasonic cleaning machine circuit described in the utility model, described drain module comprises drain solenoid valve, one end of described drain solenoid valve connects the first stationary contact 6 of double-pole single throw K3, the other end connects the second stationary contact 8 of double-pole single throw K3, the first movable contact 5 ground connection of described double-pole single throw K3, the second movable contact 7 of described double-pole single throw K3 connects power supply, the other relay K 1 that is provided with of described double-pole single throw K3, described relay K 1 adhesive or disconnection double-pole single throw K3, the colelctor electrode of one end connecting triode Q2 of described relay K 1, the other end of described relay K 1 connects the negative pole of diode D4, the colelctor electrode of the anodal connecting triode Q2 of described diode D4, the grounded emitter of described triode Q2, the base stage contact resistance R2 of described triode Q2, described resistance R 2 connects main control module, the two ends parallel diode D3 of described draining battery valve, the positive pole of described diode D3 connects the first stationary contact of double-pole single throw K3, and the negative pole of described diode D3 connects the second stationary contact of double-pole single throw K3.
The above only is preferred embodiment of the present utility model, and is in order to limit the utility model, not all within spirit of the present utility model and principle, any modification of doing, is equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.