CN203189253U - Agricultural water tower supercharged type water feeder - Google Patents

Abstract

The utility model discloses an agricultural water tower supercharged type water feeder which comprises a power circuit, a normally-opened switch, a button switch, a selective switch, a gear-shifting switch, a time-base integrated circuit, a first light-emitting diode, a second light-emitting diode, a contactor, a two-direction triggering diode, a diode, a voltage-stabilizing diode, a first capacitor, a second capacitor, a third capacitor, a first resistor, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a sixth resistor, a seventh resistor, an eighth resistor and a ninth resistor. The agricultural water tower supercharged type water feeder can provide tap water for people far away from water tower zones and bring great convenience to life of people. The agricultural water tower super charged type water feeder has the advantages of being simple in structure, stable in performance and long in service life.

Description

Agricultural water tower supercharging type water feeder

Technical field

The utility model relates to a kind of water feeder, relates in particular to a kind of agricultural water tower supercharging type water feeder.

Background technique

At present, the rural area faces the trouble that tap water supply becomes people's mind, because water tower hydraulic pressure is not enough, causes a lot of dried up towers area far away can not use tap water, causes people to draw aquatic work from far place, has brought very big inconvenience to people's life.

The model utility content

The purpose of this utility model provides a kind of agricultural water tower supercharging type water feeder with regard to being in order to address the above problem.

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

The utility model comprises power circuit, normal open switch, push-button switch, selector switch, Gear-shift switch, time-base integrated circuit, first Light-Emitting Diode (LED), second Light-Emitting Diode (LED), contactor, bidirectional trigger diode, diode, reference diode, first capacitor, second capacitor, the 3rd capacitor, first resistor, second resistor, the 3rd resistor, the 4th resistor, the 5th resistor, the 6th resistor, the 7th resistor, the 8th resistor and the 9th resistor, the cathode output end of described power circuit first end with described first capacitor of connecting behind the described normal open switch respectively, first end of described first resistor and first end of described push-button switch are connected, second end of described push-button switch is connected with first end of described contactor, second end of described first capacitor respectively with the negative pole of described reference diode, second end of the positive pole of described diode and described first resistor is connected, the negative pole of described diode respectively with first end of described second capacitor, the top grade of described Gear-shift switch, first end of described second resistor, the electrode input end of described time-base integrated circuit, the forced resetting end of described time-base integrated circuit is connected with the positive pole of described first Light-Emitting Diode (LED), first end of the middle-grade and described selector switch of described shift switch is connected with first end of described the 4th resistor, second end of described second resistor is connected with second end of described the 4th resistor and first end of described the 3rd resistor respectively, the 3rd end of described selector switch is connected and is connected with the high-triggering end of described time-base integrated circuit and the low triggering end of described time-base integrated circuit respectively behind described the 5th resistor, the signal output part of described time-base integrated circuit is connected and is connected with the control end of described bidirectional trigger diode behind described the 8th resistor, the negative pole of described first Light-Emitting Diode (LED) is connected and is connected with the positive pole of described second Light-Emitting Diode (LED) behind described the 6th resistor, the negative pole of described second light emitting diode is connected with first end of described the 7th resistor, second end of described contactor is connected with first end of described bidirectional trigger diode and first end of described the 3rd capacitor respectively, second end of described the 3rd capacitor, second end with described bidirectional trigger diode of connecting behind described the 9th resistor respectively, second end of described the 7th resistor, the negative input of described time-base integrated circuit, second end of described selector switch, second end of described the 3rd resistor, the low grade of described Gear-shift switch, second end of described second capacitor and the positive pole of described reference diode are connected.

Particularly, described power circuit comprises that ac power supply, main switch, fus, contactor normal open switch, dry reed relay and motor, described main switch, described fus, described contactor normal open switch, described dry reed relay and described motor are connected in series on the described ac power supply successively.

The beneficial effects of the utility model are:

The utility model can make the people away from the water tower area use tap water, has brought very big convenience to people's life; The utlity model has long advantage of simple in structure, stable performance and working life.

Description of drawings

Fig. 1 is the circuit diagram of agricultural water tower supercharging type water feeder described in the utility model.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing:

As shown in Figure 1, the utility model comprises power circuit, normal open switch S1, button switch K R-1, selector switch S2, Gear-shift switch Q2, time-base integrated circuit IC, the first Light-Emitting Diode (LED) VL1, the second Light-Emitting Diode (LED) VL2, contactor KM, bidirectional trigger diode VT, diode VD, reference diode VS, the first capacitor C1, the second capacitor C2, the 3rd capacitor C3, the first resistor R1, the second resistor R2, the 3rd resistor R3, the 4th resistor R4, the 5th resistor R5, the 6th resistor R6, the 7th resistor R7, the 8th resistor R8 and the 9th resistor R9, behind the cathode output end of the power circuit series connection normal open switch S1 respectively with first end of the first capacitor C1, first end of the first resistor R1 is connected with first end of button switch K R-1, second end of button switch K R-1 is connected with first end of contactor KM, second end of the first capacitor C1 respectively with the negative pole of reference diode VS, the positive pole of diode VD is connected with second end of the first resistor R1, the negative pole of diode VD respectively with first end of the second capacitor C2, the top grade of Gear-shift switch Q2, first end of the second resistor R2, the electrode input end of time-base integrated circuit IC, the forced resetting end of time-base integrated circuit IC is connected with the positive pole of the first Light-Emitting Diode (LED) VL1, first end of the middle-grade and selector switch S2 of shift switch Q2 is connected with first end of the 4th resistor R4, second end of the second resistor R2 is connected with second end of the 4th resistor R4 and first end of the 3rd resistor R3 respectively, the 3rd end of selector switch S2 is connected and is connected with the high-triggering end of time-base integrated circuit IC and the low triggering end of time-base integrated circuit IC respectively behind the 5th resistor R5, the signal output part of time-base integrated circuit IC is connected and is connected with the control end of bidirectional trigger diode VT behind the 8th resistor R8, the negative pole of the first Light-Emitting Diode (LED) VL1 is connected and is connected with the positive pole of the second Light-Emitting Diode (LED) VL2 behind the 6th resistor R6, the negative pole of the second light emitting diode VL2 is connected with first end of the 7th resistor R7, second end of contactor KM is connected with first end of bidirectional trigger diode VT and first end of the 3rd capacitor C3 respectively, second end of the 3rd capacitor C3 second end with bidirectional trigger diode VT of connecting behind the 9th resistor R9 respectively, second end of the 7th resistor R7, the negative input of time-base integrated circuit IC, second end of selector switch S2, second end of the 3rd resistor R3, the low grade of Gear-shift switch Q2, second end of the second capacitor C2 is connected with the positive pole of reference diode VS, and power circuit comprises ac power supply, main switch Q1, fus FU, contactor normal open switch KM-1, dry reed relay KR and motor M, main switch Q1, fus FU, described contactor normal open switch KM-1, dry reed relay KR and motor M are connected in series on the ac power supply successively.

Claims (2)

1. agricultural water tower supercharging type water feeder, it is characterized in that: comprise power circuit, normal open switch, push-button switch, selector switch, shift switch, time-base integrated circuit, first Light-Emitting Diode (LED), second Light-Emitting Diode (LED), contactor, bidirectional trigger diode, diode, reference diode, first capacitor, second capacitor, the 3rd capacitor, first resistor, second resistor, the 3rd resistor, the 4th resistor, the 5th resistor, the 6th resistor, the 7th resistor, the 8th resistor and the 9th resistor, the cathode output end of described power circuit first end with described first capacitor of connecting behind the described normal open switch respectively, first end of described first resistor and first end of described push-button switch are connected, second end of described push-button switch is connected with first end of described contactor, second end of described first capacitor respectively with the negative pole of described reference diode, second end of the positive pole of described diode and described first resistor is connected, the negative pole of described diode respectively with first end of described second capacitor, the top grade of described Gear-shift switch, first end of described second resistor, the electrode input end of described time-base integrated circuit, the forced resetting end of described time-base integrated circuit is connected with the positive pole of described first Light-Emitting Diode (LED), first end of the middle-grade and described selector switch of described shift switch is connected with first end of described the 4th resistor, second end of described second resistor is connected with second end of described the 4th resistor and first end of described the 3rd resistor respectively, the 3rd end of described selector switch is connected and is connected with the high-triggering end of described time-base integrated circuit and the low triggering end of described time-base integrated circuit respectively behind described the 5th resistor, the signal output part of described time-base integrated circuit is connected and is connected with the control end of described bidirectional trigger diode behind described the 8th resistor, the negative pole of described first Light-Emitting Diode (LED) is connected and is connected with the positive pole of described second Light-Emitting Diode (LED) behind described the 6th resistor, the negative pole of described second light emitting diode is connected with first end of described the 7th resistor, second end of described contactor is connected with first end of described bidirectional trigger diode and first end of described the 3rd capacitor respectively, second end of described the 3rd capacitor, second end with described bidirectional trigger diode of connecting behind described the 9th resistor respectively, second end of described the 7th resistor, the negative input of described time-base integrated circuit, second end of described selector switch, second end of described the 3rd resistor, the low grade of described Gear-shift switch, second end of described second capacitor and the positive pole of described reference diode are connected.

2. agricultural water tower supercharging type water feeder according to claim 1, it is characterized in that: described power circuit comprises that ac power supply, main switch, fus, contactor normal open switch, dry reed relay and motor, described main switch, described fus, described contactor normal open switch, described dry reed relay and described motor are connected in series on the described ac power supply successively.