CN205134445U - Novel shower water conservation is automatic device - Google Patents

Abstract

The utility model provides a novel shower water conservation is automatic device, including circuit master switch, your bi -pass electromagnetism check valve, thermosensor, travel switch, cold storage water tank, hot thermal storage tank, check valve, hydraulically controlled check valve, telescopic link, water heater, gondola water faucet, the cold outlet valve of gondola water faucet, the hot outlet valve of gondola water faucet, the cold and hot adjustment handle of gondola water faucet, its characterized in that: your bi -pass electromagnetism check valve is one total 10, the switch -on and the disconnection in your bi -pass electromagnetism check valve major control water route, a switch is connected to the hot outlet valve of gondola water faucet, on -off control 5 is individual your bi -pass electromagnetism check valve, the utility model discloses a can realize that shower initial stage cold water in time utilizes, the shower interior hot water of pipeline is later in time retrieved, and the security is high, and is rational in infrastructure to can satisfy the novel shower water conservation is automatic device of different shower in season demands.

Description

A kind of novel shower water saving automatic device

Technical field

The utility model relates to household water saving device, particularly a kind of novel shower water saving automatic device.

Background technology

In urbanite water consumption, shower water accounts for 1/3rd of family's total water consumption, and summer, shower water amount was larger, and shower water saving is current problem demanding prompt solution.At present, the improvement project of bathing water savers is mainly reflected in: the cold water storage of hot water pipeline, after hot-water line goes out hot water, cold water makes full use of again, and simultaneously to the Recovery of the hot water retained in Water heater pipeline, the research of Water heater pipeline inner cold water being reclaimed to convenience is little, main deficiency is embodied in: shower house spacing geyser is far away, each unlatching hot water valve geyser all can be heated up water immediately, even if need a small amount of hot water also to need the water in pipeline all to heat, after each bathing, hot water has been accumulated in hot water pipeline, thus cause thermal water resource to waste.

Summary of the invention

For above-mentioned situation, not enough for overcoming it, the utility model provides a kind of stability high and a kind of novel shower water saving automatic device of very operation readiness recyclable hot water pipeline hot water and cold water.

The technical solution of the utility model is achieved in that a kind of novel shower water saving automatic device, include bi-bit bi-pass electromagnetism one way valve, heat sensor, travel switch, cold storage tank, hot heat preservation storage water tank, one way valve, hydraulic control one-way valve, expansion link, geyser, gondola water faucet, the cold outlet valve of gondola water faucet, the hot outlet valve of gondola water faucet, the cold and hot regulating handle of gondola water faucet, it is characterized in that: described bi-bit bi-pass electromagnetism one way valve one has 10, the connecting and disconnecting in described bi-bit bi-pass electromagnetism one way valve major control water route; The hot outlet valve of described gondola water faucet connects a switch, the described bi-bit bi-pass electromagnetism one way valve of described switch control rule 5; The cold outlet valve of described gondola water faucet connects a switch, the described bi-bit bi-pass electromagnetism one way valve of described switch control rule 2; Described heat sensor controls 2 described bi-bit bi-pass electromagnetism one way valves; When the hot outlet valve of described gondola water faucet is opened, described travel switch controls 1 described bi-bit bi-pass electromagnetism one way valve; The adjustable proportioning flowing out hot water and cold water from gondola water faucet of the cold and hot regulating handle of described gondola water faucet.

Described heat sensor set temperature is at 30 degree, obstructed at water temperature 30 degree of the following stated heat sensor resistance, described heat sensor resistance conducting during water temperature more than 30 degree.

Described cold storage tank is scalable cavity, and described scalable cavity volume can according to gondola water faucet distance geyser distance adjustment cavity length; Not etc., described cold storage tank left chamber moisture storage capacity and right chamber moisture storage capacity unit cross-sectional area are not 1:9 to described cold storage tank left and right cavity water storage sectional area; Described cold storage tank left chamber piston rod is the telescopic rod that the larger coefficient of elasticity of diameter is less, and described cold storage tank left chamber diameter of piston rod is 8:9 with the ratio of described cold storage tank left chamber unit cross-sectional area.When about described cold storage tank, two chambeies pass into the water of identical pressure, the ratio that described cold storage tank piston is subject to left and right two cavity pressures is 1:9, described cold storage tank piston is to left movement, described cold storage tank water inlet one way valve cut-off, described cold storage tank left chamber cold water flows to the described right chamber of cold storage tank by hydraulic control one-way valve.The power resources of described cold storage tank piston movement are water supply pressure.

Right chamber water outlet place of described cold storage tank arranges above a hydraulic control one-way valve (normal open), the described left chamber of cold storage tank and arranges a hydraulic control one-way valve (normal off), described hydraulic control one-way valve controlled pressure all derives from that the hot outlet valve of described gondola water faucet is opened, described travel switch is closed, described water heater working, the pressure of described hot water pipeline cold water.

Described hot heat preservation storage water tank is the same with the physical dimension of described cold storage tank; Described hot heat preservation storage water tank is heat preservation storage water tank; Described hot heat preservation storage water tank piston is thermal insulation piston, and the described left chamber of hot heat preservation storage water tank is hot water, and the described right chamber of hot heat preservation storage water tank is cold water; It is water supply pressure that described thermal insulation piston moves power resources.

When needing separately hot water: described circuit general switch closes, and the hot outlet valve of described gondola water faucet is opened, and described hot heat preservation storage water tank right chamber cold water pressure pushes described hot heat preservation storage water tank piston and moves to left, and described hot heat preservation storage water tank left chamber hot water flows out described gondola water faucet.Bottom the described left chamber of hot heat preservation storage water tank, one stroke switch is set, described travel switch is encountered when described hot heat preservation storage water tank piston moves to bottom left chamber, described travel switch closes, thus the described bi-bit bi-pass electromagnetism one way valve controlling correspondence obtains electric, and geyser is started working.

When needing a small amount of hot water, open separately the hot outlet valve of described gondola water faucet, first utilize described hot water receiver left chamber hot water, geyser does not need to open.

When starting bathing, open the hot outlet valve of described gondola water faucet and the cold outlet valve of described gondola water faucet, first use the hot water in the described left chamber of hot heat preservation storage water tank, described gondola water faucet flows out comfortable warm water simultaneously; After the hot water in the described left chamber of hot heat preservation storage water tank uses, described geyser is started working, and first the cold water in described hot water pipeline flow to the described right chamber of cold storage tank, the not water outlet of described gondola water faucet; When described heat sensor senses the hot water in described hot water pipeline, described gondola water faucet flows out comfortable warm water.

After bathing, close the hot outlet valve of described gondola water faucet and the cold outlet valve of described gondola water faucet, hot water residual in described hot water pipeline flows to the described left chamber of hot heat preservation storage water tank, stores, can use at any time.

Time only with cold water bathing, open separately described cold outlet valve, described gondola water faucet flows out cold water.

The good effect that the technical solution of the utility model produces is as follows: described bi-bit bi-pass electromagnetism one way valve, described heat sensor are powered and be 24V, can not be middle electric during shower, and safety is high.Described cold storage tank, described hot heat preservation storage water tank volume all can regulate, and can adapt to varying environment.

The utility model effectively can store and utilize the part cold water at heat discharging tube of water heater road shower initial stage immediately, stays the hot water in hot water pipeline, can save great lot of water resources after storing bathing.Described master switch, after gondola water faucet cold-hot water outlet valve is opened simultaneously, during shower, what described gondola water faucet flowed out any time is all comfortable warm water; Open described master switch, described cold valves, the always cold water flowed out from gondola water faucet, therefore can meet Various Seasonal, and the demand of different user, usage range is wide.

The utility model is simple and reasonable, and the power of described cold-hot heat preservation storage tank piston all derives from the pressure of water pipe, does not need additional power, reaches energy-conserving and environment-protective object.

Accompanying drawing explanation

Fig. 1 is a kind of novel shower water saving of the utility model automatic device circuit diagram.

Fig. 2 is a kind of novel shower water saving of the utility model automatic device principle schematic.

Figure number is illustrated as: 1, cold running water water inlet pipe; 2, heat sensor; 3, one way valve;

4, hydraulic control one-way valve (normal off); 5, one way valve; 6, cold storage tank case lid; 7, expansion link;

8, cold storage tank piston; 9, cold storage tank; 10, hydraulic control one-way valve (normal open); 11, the cold outlet valve of gondola water faucet;

12, the cold and hot regulating handle of gondola water faucet; 13, gondola water faucet 14, the hot outlet valve of gondola water faucet; 15, one way valve;

16, one way valve; 17, travel switch; 18, hot heat preservation storage water tank piston (heat insulation); 19, hot heat preservation storage water tank; 20, geyser; 21, circuit general switch; 22, hot outlet valve switch;

23, cold outlet valve switch; 24, travel switch; 25, heat sensor; 101, power supply; 102, hot water pipeline.

Detailed description of the invention

Below in conjunction with accompanying drawing 1,2, detailed description of the invention of the present utility model is elaborated.

By the circuit theory diagrams that Fig. 1 is the utility model employing, in circuit, there is a circuit general switch 21; Have 3 auxiliary reclays in circuit, be respectively KM1, KM2, KM3, described hot outlet valve switch 22 controls described auxiliary reclay KM1; Described cold outlet valve switch 23 controls described auxiliary reclay KM2; Described heat sensor 25 controls described auxiliary reclay KM3.The normal open switch of described auxiliary reclay KM1 controls described bi-bit bi-pass electromagnetism one way valve coil 2YA, 3YA, 4YA, 6YA, 10YA; The normal open switch of described auxiliary reclay KM2 controls described bi-bit bi-pass electromagnetism one way valve coil 8YA, 9YA; The normal open switch of described auxiliary reclay KM3 controls described bi-bit bi-pass electromagnetism one way valve coil 5YA, 7YA; Bi-bit bi-pass electromagnetism one way valve coil 1YA described in the normal open switch of described auxiliary reclay KM1 and described travel switch 24 co-controlling.

Described circuit general switch 21 is arranged on the cold and hot regulating handle place of described gondola water faucet; Described hot outlet valve switch 22 is arranged on described gondola water faucet hot outlet valve 14 place; Described cold outlet valve switch 23 is arranged on described gondola water faucet cold outlet valve 11 place; Described heat sensor 2 is arranged between shower house; Described bi-bit bi-pass electromagnetism one way valve 1YA, 2YA are arranged on described geyser 20 place; Described bi-bit bi-pass electromagnetism one way valve 3YA, 4YA, 5YA, 6YA, 7YA, 8YA, 9YA, 10YA are arranged between shower house.

Described hydraulic control one-way valve 4, hydraulic control one-way valve 10 liquid controlled pressure all derive from described bi-bit bi-pass electromagnetism one way valve 7YA delivery port pressure.

By Fig. 1, Fig. 2, after described circuit general switch 21 is closed, when opening separately the hot outlet valve 14 of described gondola water faucet: described hot outlet valve switch 22 closes, described auxiliary reclay KM1 obtains electric, the normal open switch of described auxiliary reclay KM1 closes, described bi-bit bi-pass electromagnetism one way valve coil 2YA, 3YA, 4YA, 6YA, 10YA obtains electric, described bi-bit bi-pass electromagnetism one way valve 3YA disconnects and becomes connection, cold running water enters the described right chamber of hot heat preservation storage water tank 19, tap water hydraulic is relied on to push described hot heat preservation storage water tank piston 18, described hot heat preservation storage water tank 19 left chamber hot water is shifted onto described gondola water faucet 13.When described hot heat preservation storage water tank piston 18 move to encounter described travel switch 17 bottom the described left chamber of hot heat preservation storage water tank 19 time, the hot water that the described left chamber of hot heat preservation storage water tank 19 stores drains, described travel switch 17 closes, described bi-bit bi-pass electromagnetism one way valve coil 1YA obtains electric, bi-bit bi-pass electromagnetism one way valve 1YA conducting, described geyser 20 works, cold water in described hot water pipeline, described cold water, by described bi-bit bi-pass electromagnetism one way valve 4YA, described bi-bit bi-pass electromagnetism one way valve 7YA, one way valve 3, flows to the described right chamber of cold storage tank 9; Described cold storage tank 9 left chamber cold water flows to the described right chamber of cold storage tank 9, and the described cold right chamber of storage tank 9 starts retaining.After described heat sensor 2 senses described hot water, described auxiliary reclay KM3 obtains electric, described auxiliary reclay KM3 normal open switch controls described bi-bit bi-pass electromagnetism one way valve coil 7YA, 5YA and obtains electric, described hot water, by described bi-bit bi-pass electromagnetism one way valve 5YA, one way valve 15, flows out described gondola water faucet 13.

When opening separately the cold outlet valve 11 of described gondola water faucet: after described circuit general switch 21 is closed, described cold outlet valve switch 23 closes, described auxiliary reclay KM2 obtains electric, described auxiliary reclay KM2 normal open switch controls described bi-bit bi-pass electromagnetism one way valve coil 8YA, 9YA and obtains electric, cold water by described bi-bit bi-pass electromagnetism one way valve 8YA, enter the described left chamber of cold storage tank 9, water supply pressure pushes described cold storage tank piston 8 and moves right, and first the cold water that the described cold right chamber of storage tank 9 stores flow out gondola water faucet by described hydraulic control one-way valve 10.When described cold storage tank piston 8 moves to bottom the described right chamber of cold storage tank 9, the cold water that the described cold right chamber of storage tank 9 stores is finished, and described cold running water is by the described cold left chamber of storage tank 9, and described hydraulic control one-way valve 10 flows out described gondola water faucet 13.

Open the cold outlet valve 11 of described gondola water faucet simultaneously, during the hot outlet valve 14 of described gondola water faucet: after described circuit general switch 21 is closed, described hot outlet valve switch 22 closes, described hot outlet valve switch 23 closes, described auxiliary reclay KM1, KM2 simultaneously electric, described auxiliary reclay KM1, the normal open switch of KM2 closes, described bi-bit bi-pass electromagnetism one way valve coil 2YA, 3YA, 4YA, 6YA, 8YA, 9YA, 10YA obtains electric, described bi-bit bi-pass electromagnetism one way valve 3YA disconnects and becomes connection, cold running water enters the described right chamber of hot heat preservation storage water tank 19, tap water hydraulic pushes described hot heat preservation storage water tank piston 18, the hot water that the described hot left chamber of heat preservation storage water tank 19 stores is shifted onto the hot outlet valve 14 of described gondola water faucet, cold running water enters the described left chamber of cold storage tank 9 by described bi-bit bi-pass electromagnetism one way valve 8YA, one way valve 5 simultaneously, and the pressure of cold running water pushes described cold storage tank piston 8 and moves right, and first the cold water that the described cold right chamber of storage tank 9 stores be utilized.When described cold storage tank piston 8 moves to bottom the described right chamber of cold storage tank 9, the cold water that the described cold right chamber of storage tank 9 stores is finished; Described cold running water is through the described cold left chamber of storage tank 9, and described hydraulic control one-way valve 10 flows out the cold outlet valve 11 of described gondola water faucet.By the cold and hot regulating handle 12 of described gondola water faucet, the warm water after what at this moment described gondola water faucet 13 flowed out is hot water and cold water mix.

When described hot heat preservation storage water tank piston 18 move to encounter described travel switch 17 bottom described hot heat preservation storage water tank 19 time, the hot water that the described left chamber of hot heat preservation storage water tank 19 stores is used up, described bi-bit bi-pass electromagnetism one way valve coil 1YA obtains electric, described bi-bit bi-pass electromagnetism one way valve 1YA conducting; Described geyser 20 works, described hot water pipeline is cold water, described cold water is by described bi-bit bi-pass electromagnetism one way valve 4YA, described bi-bit bi-pass electromagnetism one way valve 7YA, one way valve 3, and flow to the described right chamber of cold storage tank 9, the described cold right chamber of storage tank 9 starts cold-storage water; The water pressure in the described left chamber of cold storage tank 9 is greater than the pressure of described tap water, described in the water inlet of described cold storage tank 9 left chamber, one way valve 5 is obstructed, the cold water in the described left chamber of cold storage tank 9 flows to the described right chamber of cold storage tank 9 by described hydraulic control one-way valve 4, the not conducting of described hydraulic control one-way valve 10, at this moment described gondola water faucet 13 not water outlet.

When described hot water pipeline is hot water, after described heat sensor 2 senses described hot water, described auxiliary reclay KM3 obtains electric, described auxiliary reclay KM3 normal open switch controls described bi-bit bi-pass electromagnetism one way valve coil 7YA, 5YA and obtains electric, described hot water, by described bi-bit bi-pass electromagnetism one way valve 5YA, one way valve 15, flows out the hot outlet valve 14 of described gondola water faucet; Hydraulic control one-way valve 10 conducting simultaneously, cold water by described bi-bit bi-pass electromagnetism one way valve 8YA, enter the described left chamber of cold storage tank 9, hydraulic pressure pushes described cold storage tank piston 8 and moves right, and the cold water that the described cold right chamber of storage tank 9 stores flows out the cold outlet valve 11 of described gondola water faucet by described hydraulic control one-way valve 10.When described cold storage tank piston 8 moves to bottom described cold storage tank 9, the cold water that the described cold right chamber of storage tank 9 stores is finished, and described cold running water is by the described cold left chamber of storage tank 9, and described hydraulic control one-way valve 10 flows out the cold outlet valve 11 of described gondola water faucet.By the cold and hot regulating handle 12 of described gondola water faucet, the warm water at this moment after the always hot water that flows out of described gondola water faucet and cold water mix.

After shower terminates, close the cold outlet valve of described gondola water faucet 11, the hot outlet valve of described gondola water faucet 14: described circuit general switch 101 closes simultaneously, described hot outlet valve switch 22 disconnects, described hot outlet valve switch 23 disconnects, described auxiliary reclay KM1, KM2 be dead electricity simultaneously, the normal open switch of described auxiliary reclay KM1, KM2 disconnects, described bi-bit bi-pass electromagnetism one way valve coil 1YA, 2YA, 3YA, 4YA, 6YA, 8YA, 9YA, 10YA dead electricity.Because also having hot water in hot water pipeline, described heat sensor 2 senses described hot water, described auxiliary reclay KM3 obtains electric, described auxiliary reclay KM3 normal open switch controls described bi-bit bi-pass electromagnetism one way valve coil 7YA, 5YA and obtains electric, the cold hot water that push in hot water pipeline from water flows to the described left chamber of hot heat preservation storage water tank 19 through described bi-bit bi-pass electromagnetism one way valve 2YA, described heat sensor 2, described bi-bit bi-pass electromagnetism one way valve 5YA, 6YA, and the described hot left chamber of heat preservation storage water tank 19 starts accumulation of heat water; The cold water in the described right chamber of hot heat preservation storage water tank 19 flows to the described right chamber of cold storage tank 9 through described bi-bit bi-pass electromagnetism one way valve 10YA, described cold storage tank 9 right chamber retaining.When the hot water temperature in hot water pipeline is less than 300, described heat sensor 2 is responded to less than described hot water, described auxiliary reclay KM3 dead electricity, described auxiliary reclay KM3 normal open switch disconnects, described bi-bit bi-pass electromagnetism one way valve coil 7YA, 5YA dead electricity, described hot heat preservation storage water tank 19 left chamber accumulation of heat water completes.

Claims (10)

1. a novel shower water saving automatic device, include circuit general switch, bi-bit bi-pass electromagnetism one way valve, heat sensor, travel switch, cold storage tank, hot heat preservation storage water tank, one way valve, hydraulic control one-way valve, expansion link, geyser, gondola water faucet, the cold outlet valve of gondola water faucet, the hot outlet valve of gondola water faucet, the cold and hot regulating handle of gondola water faucet, it is characterized in that: described bi-bit bi-pass electromagnetism one way valve one has 10, the connecting and disconnecting in described bi-bit bi-pass electromagnetism one way valve major control water route; The hot outlet valve of described gondola water faucet connects a switch, the described bi-bit bi-pass electromagnetism one way valve of described switch control rule 5; The cold outlet valve of described gondola water faucet connects a switch, the described bi-bit bi-pass electromagnetism one way valve of described switch control rule 2; Described heat sensor controls 2 described bi-bit bi-pass electromagnetism one way valves; When the hot outlet valve of described gondola water faucet is opened, described travel switch controls 1 described bi-bit bi-pass electromagnetism one way valve; The adjustable proportioning flowing out hot water and cold water from gondola water faucet of the cold and hot regulating handle of described gondola water faucet.

2. a kind of novel shower water saving automatic device according to claim 1, is characterized in that: described heat sensor set temperature is at 30 degree, obstructed at water temperature 30 degree of the following stated heat sensor resistance, described heat sensor resistance conducting during water temperature more than 30 degree.

3. a kind of novel shower water saving automatic device according to claim 1, is characterized in that: described cold storage tank is scalable cavity, and described scalable cavity volume can according to gondola water faucet distance geyser distance adjustment cavity length; Not etc., described cold storage tank left chamber moisture storage capacity and right chamber moisture storage capacity unit cross-sectional area are not 1:9 to described cold storage tank left and right cavity water storage sectional area; Described cold storage tank left chamber piston rod is the telescopic rod that the larger coefficient of elasticity of diameter is less, and described cold storage tank left chamber diameter of piston rod is 8:9 with the ratio of described cold storage tank left chamber unit cross-sectional area; When about described cold storage tank, two chambeies pass into the water of identical pressure, the ratio that described cold storage tank piston is subject to left and right two cavity pressures is 1:9, described cold storage tank piston is to left movement, described cold storage tank water inlet one way valve cut-off, described cold storage tank left chamber cold water flows to the described right chamber of cold storage tank by hydraulic control one-way valve; The power resources of described cold storage tank piston movement are water supply pressure.

4. a kind of novel shower water saving automatic device according to claim 1, it is characterized in that: right chamber water outlet place of described cold storage tank arranges above a normal open hydraulic control one-way valve, the described left chamber of cold storage tank and arranges a normal off hydraulic control one-way valve, described hydraulic control one-way valve controlled pressure all derives from that the hot outlet valve of described gondola water faucet is opened, described travel switch is closed, described water heater working, the pressure of described hot water pipeline cold water.

5. a kind of novel shower water saving automatic device according to claim 1, is characterized in that: described hot heat preservation storage water tank is the same with the physical dimension of described cold storage tank; Described hot heat preservation storage water tank is heat preservation storage water tank; Described hot heat preservation storage water tank piston is thermal insulation piston, and the described left chamber of hot heat preservation storage water tank is hot water, and the described right chamber of hot heat preservation storage water tank is cold water; It is water supply pressure that described thermal insulation piston moves power resources.

6. a kind of novel shower water saving automatic device according to claim 1, it is characterized in that: when needing separately hot water: described circuit general switch closes, the hot outlet valve of described gondola water faucet is opened, described hot heat preservation storage water tank right chamber cold water pressure pushes described hot heat preservation storage water tank piston and moves to left, and described hot heat preservation storage water tank left chamber hot water flows out described gondola water faucet; Bottom the described left chamber of hot heat preservation storage water tank, one stroke switch is set, described travel switch is encountered when described hot heat preservation storage water tank piston moves to bottom left chamber, described travel switch closes, thus the described bi-bit bi-pass electromagnetism one way valve controlling correspondence obtains electric, and geyser is started working.

7. a kind of novel shower water saving automatic device according to claim 1, it is characterized in that: when needing a small amount of hot water, open separately the hot outlet valve of described gondola water faucet, first utilize described hot heat preservation storage water tank left chamber hot water, geyser does not need to open.

8. a kind of novel shower water saving automatic device according to claim 1, it is characterized in that: when starting bathing, open the hot outlet valve of described gondola water faucet and the cold outlet valve of described gondola water faucet, first use the hot water in the described left chamber of hot heat preservation storage water tank, described gondola water faucet flows out comfortable warm water simultaneously; After the hot water in the described left chamber of hot heat preservation storage water tank uses, described geyser is started working, and first the cold water in described hot water pipeline flow to the described right chamber of cold storage tank, the not water outlet of described gondola water faucet; When described heat sensor senses the hot water in described hot water pipeline, described gondola water faucet flows out comfortable warm water.

9. a kind of novel shower water saving automatic device according to claim 1, it is characterized in that: after bathing, close the hot outlet valve of described gondola water faucet and the cold outlet valve of described gondola water faucet, hot water residual in described hot water pipeline flows to the described left chamber of hot heat preservation storage water tank, store, can use at any time.

10. a kind of novel shower water saving automatic device according to claim 1, it is characterized in that: time only with cold water bathing, open separately described cold outlet valve, described gondola water faucet flows out cold water.