CN202248108U - Cyclic utilization control system for domestic water resource - Google Patents

Abstract

A cyclic utilization control system for household water resource relates to the technical field of domestic water and aims at solving the technical problem of saving the water resource. The cyclic utilization control system comprises a washing tank, a flush toilet, a dirty water tank, a pure water tank, a clean water tank, a rainwater tank, a water collecting tank and a transition tank, wherein the clean water tank is used for collecting water falling from the washing tank after articles are washed in the washing tank; the rainwater tank is used for collecting rainwater, and the water collected by the rainwater tank and the clean water tank is pumped into the water collecting tank by a submersible pump; the flowing direction of the water collected by the collecting tank is controlled by an electromagnetic valve, after being filtered by a filter, the water is injected into the pure water tank and can also be injected into the transition tank; the water in the pure water tank can be pumped into the transition tank through the submersible pump; and the flow direction of the water collected by the transition tank is controlled by the electromagnetic valve, and the water can be directly injected into a water tank of the flush toilet for flushing the toilet and can also be injected into the dirty water tank for cleaning more dirty articles. The system provided by the utility model can effectively collect natural rainwater, can also recycle domestic water and can be powered by commercial power or solar energy.

Description

Service water resource circulation utilization control system

Technical field

The utility model relates to the living water use technology, particularly relates to the technology that a kind of service water resource circulation utilization is controlled system.

Background technology

Along with development of times, people increase the demand of water greatly, and the wrongful water of people, make the river drawdown, and water quality worse and worse.In life, people be unable to do without the nourishing of water, and the physiological activity of human body needs the participation of water, and therefore, we want the correct water resource of utilizing.

The function of water is very extensive in life; Can be used for washing clothes, wash dish, wash one's face etc., using water wisely is a kind of social virtue, and present living water use all is directly to enter municipal leader after using up; Be not fully used, therefore present living water use wasting phenomenon is very serious.

In addition, rainwater also is that the Nature is grant the precious resources in the mankind, but human do not have effectively collection to utilize to rainwater yet, all is directly to discharge through sewer, and this also is the waste to water resource in fact.

The utility model content

To the defective that exists in the above-mentioned prior art, the utility model technical problem to be solved provides a kind of service water resource circulation utilization control system of ability conserve water resource.

In order to solve the problems of the technologies described above; A kind of service water resource circulation utilization that the utility model provided is controlled system; Comprise kitchen sink, flush toilet, addle pond, clear water reservoir; It is characterized in that: also comprise clear water reserviors, stormwater tank, collecting-tank, transition pond, solenoid operated directional valve, electromagnet cut off valve, and control circuit;

Said electromagnet cut off valve has four, is respectively first electromagnet cut off valve, second electromagnet cut off valve, the 3rd electromagnet cut off valve, the 4th electromagnet cut off valve;

Said kitchen sink is positioned at the high position of clear water reserviors, and is provided with the delivery port of a low level, and said solenoid operated directional valve has a water inlet, two delivery ports, and its water inlet connects the delivery port of kitchen sink, and an one of which delivery port connects municipal leader, and another delivery port is received clear water reserviors;

Said collecting-tank is positioned at the high position in clear water reservoir and transition pond, and is provided with the delivery port of low level, and its delivery port is received clear water reservoir through first electromagnet cut off valve, a strainer successively, and receives the transition pond through second electromagnet cut off valve;

Said transition pond is positioned at the high position in flush toilet and addle pond, and is provided with the delivery port of low level, and its delivery port is received water box of water closet through the 3rd electromagnet cut off valve, receives the addle pond through the 4th electromagnet cut off valve;

Said stormwater tank is arranged on the open air, respectively is provided with a submersible pump in said stormwater tank, clear water reserviors and the clear water reservoir, and each receives collecting-tank through pipeline the delivery port of the submersible pump in stormwater tank and the clear water reserviors, and the delivery port of the submersible pump in the clear water reservoir is received the transition pond through pipeline;

Be equipped with level sensor in said clear water reserviors, collecting-tank, clear water reservoir, transition pond, addle pond and the water box of water closet, each receives power supply through a switch, a relay electrical control end of said solenoid operated directional valve, each electromagnet cut off valve and each submersible pump;

Said control circuit is provided with a plurality of signals collecting ends and a plurality of control signal output, and its each signals collecting end connects each level sensor respectively, and its each control signal output connects the control end of each relay respectively.

Further; Said control circuit comprises eight flip and flop generators; The positive output end of each flip and flop generator constitutes a control signal output of control circuit; The set input of each flip and flop generator is all received high level, and the RESET input of each flip and flop generator constitutes a signals collecting end of control circuit;

The corresponding relay of each flip and flop generator, each receives the control end of corresponding relay the positive output end of each flip and flop generator through an amplifier, optical isolation amplifier, a Darlington driving tube.

Further, the level sensor in the clear water reserviors is received the RESET input with the corresponding flip and flop generator of relay that is connected solenoid operated directional valve;

Level sensor in the collecting-tank is received the RESET input of two corresponding two flip and flop generators of relay of the submersible pump interior with being connected stormwater tank and clear water reserviors;

Level sensor in the clear water reservoir is received the RESET input with the corresponding flip and flop generator of relay that is connected first electromagnetic valve;

Level sensor in the transition pond is received the RESET input of two corresponding two flip and flop generators of relay of the submersible pump interior with being connected second electromagnetic valve and clear water reservoir;

Level sensor in the water box of water closet is received the RESET input with the corresponding flip and flop generator of relay that is connected the 3rd electromagnetic valve;

Level sensor in the addle pond is received the RESET input with the corresponding flip and flop generator of relay that is connected the 4th electromagnetic valve.

The service water resource circulation utilization control system that the utility model provides utilizes stormwater tank to collect rainwater, utilizes clear water reserviors to collect cleaner living water use; The water of collecting injects clear water reservoir after filtering and can be used for breeding fish, watering flowers; Can be used for cleaning dirtier article after the water of collecting directly injects the addle pond, also can be used for dragging the plate of sweeping the floor, the water of collection can be used for flush toilet after directly injecting water box of water closet; Can effectively utilize natural precipitation and living water use, therefore can the conserve water resource.

Description of drawings

Fig. 1 is the structural representation of the service water resource circulation utilization control system of the utility model embodiment;

Fig. 2 is the circuit diagram of the control circuit in the service water resource circulation utilization control system of the utility model embodiment.

The specific embodiment

Embodiment to the utility model describes in further detail below in conjunction with description of drawings, but present embodiment is not limited to the utility model, and analog structure of every employing the utility model and similar variation thereof all should be listed the protection domain of the utility model in.

As shown in Figure 1; A kind of service water resource circulation utilization that the utility model embodiment is provided is controlled system; Comprise kitchen sink 5, flush toilet 8, addle pond 7, clear water reservoir 4; It is characterized in that: also comprise clear water reserviors 3, stormwater tank 2, collecting-tank 1, transition pond 6, solenoid operated directional valve 15, electromagnet cut off valve, and control circuit;

Said electromagnet cut off valve has four, is respectively first electromagnet cut off valve 11, second electromagnet cut off valve 12, the 3rd electromagnet cut off valve 13, the 4th electromagnet cut off valve 14;

Said kitchen sink 5 is positioned at the high position of clear water reserviors 3; And be provided with the delivery port of a low level, and said solenoid operated directional valve 15 has a water inlet, two delivery ports, and its water inlet connects the delivery port of kitchen sink 5; An one of which delivery port connects municipal leader, and another delivery port is received clear water reserviors 3;

Said collecting-tank 1 is positioned at the high position in clear water reservoir 4 and transition pond 6, and is provided with the delivery port of low level, and its delivery port is received clear water reservoir 4 through first electromagnet cut off valve 11, a strainer 9 successively, and receives transition pond 6 through second electromagnet cut off valve 12;

Said transition pond 6 is positioned at the high position in flush toilet 8 and addle pond 7, and is provided with the delivery port of low level, and its delivery port warp the 3rd electromagnet cut off valve 13 is received the water tank of flush toilet 8, receives addle pond 7 through the 4th electromagnet cut off valve 14;

Said stormwater tank 2 is arranged on the open air; Respectively be provided with a submersible pump 18,17,16 in said stormwater tank 2, clear water reserviors 3 and the clear water reservoir 4; Each receives collecting-tank 1 through pipeline the delivery port of the submersible pump 18,17 in stormwater tank 2 and the clear water reserviors 3, and the delivery port of the submersible pump 16 in the clear water reservoir 4 is received transition pond 6 through pipeline;

Be equipped with level sensor in the water tank of said clear water reserviors 3, collecting-tank 1, clear water reservoir 4, transition pond 6, addle pond 7 and flush toilet 8, each receives power supply through a switch, a relay electrical control end of said solenoid operated directional valve 15, each electromagnet cut off valve 11,12,13,14 and each submersible pump 16,17,18;

Said control circuit is provided with a plurality of signals collecting ends and a plurality of control signal output, and its each signals collecting end connects each level sensor respectively, and its each control signal output connects the control end of each relay respectively.

Among the utility model embodiment, said kitchen sink 5 is meant the tank of daily necessitiess such as being used for cleaning clothes, tableware, food materials.

The method for using of the utility model embodiment is following:

If the water behind the kitchen sink article-cleaning is dirtier; The switch that then will connect solenoid operated directional valve switches to off state, this moment the solenoid operated directional valve dead electricity, its water inlet and the delivery port connection that is connected municipal leader; Make the municipal leader of the drowning flow direction of kitchen sink; If the water behind the kitchen sink article-cleaning is cleaner, the switch that then will connect solenoid operated directional valve switches to conducting state, and this moment, solenoid operated directional valve got; Its water inlet is communicated with the delivery port that is connected clear water reserviors, makes the drowning clear water reserviors that flow to of kitchen sink;

When the level sensor in the clear water reserviors detects in the clear water reserviors water level and arrives full position; Promptly send a full position signal to control circuit; Control circuit receives behind this full position signal to be that the relay of control connection solenoid operated directional valve switches to off state, this moment the solenoid operated directional valve dead electricity, its water inlet and the delivery port connection that is connected municipal leader; Make the municipal leader of the drowning flow direction of kitchen sink; When the level sensor in the clear water reserviors detects in the clear water reserviors water level and does not reach full position, promptly send one less than the position signal to control circuit, control circuit receives after this is less than the position signal to be that the relay of control connection solenoid operated directional valve switches to conducting state;

In the time of need the rainwater of collecting in the stormwater tank being pumped into collecting-tank; The switch that connects submersible pump in the stormwater tank is switched to conducting state; The interior submersible pump of stormwater tank this moment gets; Thereby the rainwater of collecting in the stormwater tank is pumped into collecting-tank, the switch that connects submersible pump in the stormwater tank is switched to off state, can make the submersible pump dead electricity in the stormwater tank stop pump water;

In the time of need the clear water of collecting in the clear water reserviors being pumped into collecting-tank; The switch that connects submersible pump in the clear water reserviors is switched to conducting state; The interior submersible pump of clear water reserviors this moment gets; Thereby the clear water of collecting in the clear water reserviors is pumped into collecting-tank, the switch that connects submersible pump in the clear water reserviors is switched to off state, can make the submersible pump dead electricity in the clear water reserviors stop pump water;

When the level sensor in the collecting-tank detects in the collecting-tank water level and arrives full position; Promptly send a full position signal to control circuit; Control circuit receives behind this full position signal to be that the relay of the submersible pump in control connection stormwater tank and the clear water reserviors all switches to off state; The interior equal dead electricity of submersible pump of this moment stormwater tank and clear water reserviors stops pump water; When the level sensor in the collecting-tank detects in the collecting-tank water level and does not reach full position, promptly send one less than the position signal to control circuit, control circuit receives after this is less than the position signal to be that the relay of the submersible pump in control connection stormwater tank and the clear water reserviors all switches to conducting state;

In the time of need the water of collecting in the collecting-tank being injected clear water reservoir; The switch that connects first electromagnet cut off valve is switched to conducting state; This moment, first electromagnet cut off valve must conduct, and the water of collecting in the collecting-tank promptly injects clear water reservoir after strainer filters, and the water purification after the filtration can be used for breeding fish, watering flowers; The switch that connects first electromagnet cut off valve is switched to off state, collecting-tank is stopped to the clear water reservoir water filling;

When the level sensor in the clear water reservoir detects in the clear water reservoir water level and arrives full position; Promptly send a full position signal to control circuit; Control circuit receives behind this full position signal to be that the relay of control connection first electromagnetic valve switches to off state; This moment, the first electromagnetic valve dead electricity was ended; When the level sensor in the clear water reservoir detects in the clear water reservoir water level and does not reach full position, promptly send one less than the position signal to control circuit, control circuit receives after this is less than the position signal to be that the relay of control connection first electromagnetic valve switches to conducting state;

In the time of need be with the water implanting transition pond of collecting in the collecting-tank; The switch that connects second electromagnet cut off valve is switched to conducting state; This moment, second electromagnet cut off valve must conduct; The water of collecting in the collecting-tank is the implanting transition pond, and the switch that connects second electromagnet cut off valve is switched to off state, and collecting-tank is stopped to the water filling of transition pond;

In the time of need the water purification of collecting in the clear water reservoir being pumped into the transition pond; The switch that connects submersible pump in the clear water reservoir is switched to conducting state; The interior submersible pump of clear water reservoir this moment gets; Thereby the water purification of collecting in the clear water reservoir is pumped into the transition pond, the switch that connects submersible pump in the clear water reservoir is switched to off state, can make the submersible pump dead electricity in the clear water reservoir stop pump water;

When the level sensor in the transition pond detects the full position of arrival, transition pool inner water position; Promptly send a full position signal to control circuit; Control circuit receives behind this full position signal to be that the relay of the submersible pump in control connection second electromagnetic valve and the clear water reservoir all switches to off state; This moment, the second electromagnetic valve dead electricity was ended, and the submersible pump dead electricity in the clear water reservoir stops pump water, when the level sensor in the transition pond detects transition pool inner water position and do not reach full position; Promptly send one less than the position signal to control circuit, control circuit receives after this is less than the position signal to be that the relay of the submersible pump in control connection second electromagnetic valve and the clear water reservoir all switches to conducting state;

In the time of need the water of collecting in the transition pond being injected water box of water closet; The switch that connects the 3rd electromagnet cut off valve is switched to conducting state; This moment, the 3rd electromagnet cut off valve must conduct; The water of collecting in the transition pond promptly injects water box of water closet, and the switch that connects the 3rd electromagnet cut off valve is switched to off state, and the transition pond is stopped to the water box of water closet water filling;

When the level sensor in the water box of water closet detects in the water box of water closet water level and arrives full position; Promptly send a full position signal to control circuit; Control circuit receives behind this full position signal to be that the relay of control connection the 3rd electromagnetic valve switches to off state; This moment, the 3rd electromagnetic valve dead electricity was ended; When the level sensor in the water box of water closet detects in the water box of water closet water level and does not reach full position, promptly send one less than the position signal to control circuit, control circuit receives after this is less than the position signal to be that the relay of control connection the 3rd electromagnetic valve switches to conducting state;

In the time of need the water of collecting in the transition pond being injected the addle pond; The switch that connects the 4th electromagnet cut off valve is switched to conducting state, and this moment, the 4th electromagnet cut off valve must conduct, and the water of collecting in the transition pond promptly injects the addle pond; Water in the addle pond can be used for cleaning dirtier article; Also can be used for dragging the plate of sweeping the floor, the switch that connects the 4th electromagnet cut off valve is switched to off state, the transition pond is stopped to the water filling of addle pond;

When the level sensor in the addle pond detects the full position of arrival, addle pool inner water position; Promptly send a full position signal to control circuit; Control circuit receives behind this full position signal to be that the relay of control connection the 4th electromagnetic valve switches to off state; This moment, the 4th electromagnetic valve dead electricity was ended; When the level sensor in addle pond detects addle pool inner water position and does not reach full position, promptly send one less than the position signal to control circuit, control circuit receives after this is less than the position signal to be that the relay of control connection the 4th electromagnetic valve switches to conducting state.

As shown in Figure 2; Among the utility model embodiment; Said control circuit comprises eight flip and flop generator RS1 (Fig. 2 only illustrates); The positive output end Q of each flip and flop generator RS1 constitutes a control signal output of control circuit, and the set input R of each flip and flop generator RS1 all receives high level Vcc, and the RESET input S of each flip and flop generator RS1 constitutes a signals collecting end of control circuit;

The corresponding relay J D1 of each flip and flop generator RS1, each receives the control end of corresponding relay J D1 the positive output end Q of each flip and flop generator RS1 through an amplifier A1, optical isolation amplifier G, a Darlington driving tube D1;

Level sensor in the clear water reserviors is received the RESET input with the corresponding flip and flop generator of relay that is connected solenoid operated directional valve;

Level sensor in the collecting-tank is received the RESET input of two corresponding two flip and flop generators of relay of the submersible pump interior with being connected stormwater tank and clear water reserviors;

Level sensor in the clear water reservoir is received the RESET input with the corresponding flip and flop generator of relay that is connected first electromagnetic valve;

Level sensor in the transition pond is received the RESET input of two corresponding two flip and flop generators of relay of the submersible pump interior with being connected second electromagnetic valve and clear water reservoir;

Level sensor in the water box of water closet is received the RESET input with the corresponding flip and flop generator of relay that is connected the 3rd electromagnetic valve;

Level sensor in the addle pond is received the RESET input with the corresponding flip and flop generator of relay that is connected the 4th electromagnetic valve.

The operating principle of the control circuit among the utility model embodiment is following:

Each level sensor detects water level and does not reach equal output low level signal of full when position, otherwise then exports high level signal;

When the RESET input of flip and flop generator is received corresponding level sensor output low level signal; Its positive output end output high level signal; This high level signal exports the Darlington driving tube to after amplifier amplifies; By the armature and the stationary contact adhesive of Darlington driving tube driving relay, the valve or the pump of this relay control are communicated with power supply;

When the RESET input of flip and flop generator receives that corresponding level sensor is exported high level signal; Its positive output end output low level signal; This low level signal exports the Darlington driving tube to after amplifier amplifies; The armature that is driven relay by the Darlington driving tube separates with stationary contact, makes valve or the pump and the power supply disconnection of this relay control.

The utility model embodiment comprises that also solar energy sends out/electric power system; Said solar energy sends out/and electric power system is made up of solar panel, charging-discharging controller, battery, inverter; Said charging-discharging controller is provided with a power end, an electric power storage end, a sending end; Its power end connects solar panel; Its electric power storage end connects battery, and the power supply of its sending end output is divided into two-way, and wherein one the tunnel directly is each parts power supply in the control circuit; Another road input inverter is by being solenoid operated directional valve, each electromagnet cut off valve, each submersible pump and the power supply of other small household appliances behind the power supply that inverter converts into and solenoid operated directional valve, electromagnet cut off valve, submersible pump and other small household appliances are complementary.

Among the utility model embodiment, said level sensor is made up of each one of ball float, connecting rod, dried spring, magnet and LED, and it is simple in structure, post a letter reliable and visualization display is provided, and is worthy of popularization.

Among the utility model embodiment, said solar panel is installed on the base, and this base can be realized the normal 360 degree orientation and the rotation of the 90 degree elevations angle of cell panel, makes solar panel can aim at the sun preferably, to improve photoelectric transformation efficiency.

Claims (3)

1. a service water resource circulation utilization control system comprises kitchen sink, flush toilet, addle pond, clear water reservoir, it is characterized in that: also comprise clear water reserviors, stormwater tank, collecting-tank, transition pond, solenoid operated directional valve, electromagnet cut off valve, and control circuit;

Said electromagnet cut off valve has four, is respectively first electromagnet cut off valve, second electromagnet cut off valve, the 3rd electromagnet cut off valve, the 4th electromagnet cut off valve;

Said kitchen sink is positioned at the high position of clear water reserviors, and is provided with the delivery port of a low level, and said solenoid operated directional valve has a water inlet, two delivery ports, and its water inlet connects the delivery port of kitchen sink, and an one of which delivery port connects municipal leader, and another delivery port is received clear water reserviors;

Said collecting-tank is positioned at the high position in clear water reservoir and transition pond, and is provided with the delivery port of low level, and its delivery port is received clear water reservoir through first electromagnet cut off valve, a strainer successively, and receives the transition pond through second electromagnet cut off valve;

Said transition pond is positioned at the high position in flush toilet and addle pond, and is provided with the delivery port of low level, and its delivery port is received water box of water closet through the 3rd electromagnet cut off valve, receives the addle pond through the 4th electromagnet cut off valve;

Said stormwater tank is arranged on the open air, respectively is provided with a submersible pump in said stormwater tank, clear water reserviors and the clear water reservoir, and each receives collecting-tank through pipeline the delivery port of the submersible pump in stormwater tank and the clear water reserviors, and the delivery port of the submersible pump in the clear water reservoir is received the transition pond through pipeline;

Be equipped with level sensor in said clear water reserviors, collecting-tank, clear water reservoir, transition pond, addle pond and the water box of water closet, each receives power supply through a switch, a relay electrical control end of said solenoid operated directional valve, each electromagnet cut off valve and each submersible pump;

Said control circuit is provided with a plurality of signals collecting ends and a plurality of control signal output, and its each signals collecting end connects each level sensor respectively, and its each control signal output connects the control end of each relay respectively.

2. system according to claim 1; It is characterized in that: said control circuit comprises eight flip and flop generators; The positive output end of each flip and flop generator constitutes a control signal output of control circuit; The set input of each flip and flop generator is all received high level, and the RESET input of each flip and flop generator constitutes a signals collecting end of control circuit;

The corresponding relay of each flip and flop generator, each receives the control end of corresponding relay the positive output end of each flip and flop generator through an amplifier, optical isolation amplifier, a Darlington driving tube.

3. system according to claim 2 is characterized in that: the level sensor in the clear water reserviors is received the RESET input with the corresponding flip and flop generator of relay that is connected solenoid operated directional valve;

Level sensor in the collecting-tank is received the RESET input of two corresponding two flip and flop generators of relay of the submersible pump interior with being connected stormwater tank and clear water reserviors;

Level sensor in the clear water reservoir is received the RESET input with the corresponding flip and flop generator of relay that is connected first electromagnetic valve;

Level sensor in the transition pond is received the RESET input of two corresponding two flip and flop generators of relay of the submersible pump interior with being connected second electromagnetic valve and clear water reservoir;

Level sensor in the water box of water closet is received the RESET input with the corresponding flip and flop generator of relay that is connected the 3rd electromagnetic valve;

Level sensor in the addle pond is received the RESET input with the corresponding flip and flop generator of relay that is connected the 4th electromagnetic valve.

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