CN203474547U - Micro water dispenser with high water production rate - Google Patents

Abstract

The utility model provides a micro water dispenser with a high water production rate. The micro water dispenser is characterized in that a reverse osmosis device is provided with first water outlets, a second water outlet and a third water outlet; source water is communicated with a water inlet of a front filter device via a feed water valve, a first check valve, a first pressure reducing valve, a pressure gauge and a first solenoid valve in sequence; a water outlet of the first pressure reducing valve is communicated with a flow table via a fifth solenoid valve, a first constant flow valve, a flow meter, a third solenoid valve and a fourth check valve in sequence; a water outlet of the third solenoid valve is communicated with the flow table via a fourth solenoid valve; a water outlet of the first constant flow valve is communicated with a water inlet of a second solenoid valve via a third check valve; the first water outlets of the reverse osmosis device are concentrated water discharge outlets and are communicated with a drainage vessel; the second water outlet is connected with two flow lines; the third water outlet is communicated with a water inlet of a booster pump via a second valve, the second solenoid valve, a sixth check valve and a third valve. The micro water dispenser is reasonable in flow design, has a high water production rate and can be cleaned thoroughly so as to ensure the effluent quality.

Description

The miniature water dispenser that a kind of producing water ratio is high

Technical field

The utility model belongs to water dispenser, is specially the miniature water dispenser that a kind of producing water ratio is high.

Background technology

Water dispenser is that source water (municipal tap water) is processed, the device that the water purification of its outflow can be drunk for people.Miniature water dispenser is mainly used in the water treatment of domestic water.Existing water dispenser all comprises pre-filtering device and reverse osmosis unit conventionally, and wherein the water-in of pre-filtering device is communicated with source water, and water outlet is communicated with the water-in of reverse osmosis unit through topping-up pump.Because flow scheme design is unreasonable, existing water dispenser usually has and is difficult for thoroughly cleaning and disables and stay the defect of pathogenic bacterium, and the not high problem of producing water ratio.

Utility model content

The utility model provides a kind of miniature water dispenser, and flow scheme design is reasonable, and producing water ratio is high, and can thoroughly clean to guarantee effluent quality.

For achieving the above object, the technical solution adopted in the utility model is: the miniature water dispenser that a kind of producing water ratio is high, comprise pre-filtering device and reverse osmosis unit, the water-in of described pre-filtering device is communicated with source water, water outlet is communicated with the water-in of reverse osmosis unit through a topping-up pump, and described reverse osmosis unit has the first water outlet, the second water outlet and the 3rd water outlet;

Source water is communicated with the water-in of pre-filtering device through feedwater valve, the first vacuum breaker, the first reducing valve, tensimeter, the first magnetic valve successively, and the water outlet of the first reducing valve is communicated with stream platform through the 5th magnetic valve, the first constant flow rate valve, under meter, the 3rd magnetic valve, the 4th vacuum breaker again successively; The water outlet of the 3rd magnetic valve is communicated with stream platform through one the 4th magnetic valve again;

The water outlet of described the first constant flow rate valve is communicated with the water-in of the second magnetic valve through the 3rd vacuum breaker again;

The first water outlet of described reverse osmosis unit is concentrated water discharge mouth, is communicated with drain vessel; The second water outlet connects two streamlines, and wherein a streamline is that the second water outlet is communicated with the water-in of topping-up pump through one first valve, and another streamline is that the second water outlet is communicated with stream platform through the second reducing valve and the 5th vacuum breaker successively; Described the 3rd water outlet is communicated with the water-in of topping-up pump through the second valve, the second magnetic valve, the 6th vacuum breaker, the 3rd valve successively.

Further, the pipeline between described the first constant flow rate valve and under meter is provided with water hammer-resistant valve.

Further, the pipeline between described the second reducing valve and the 5th vacuum breaker is provided with the second constant flow rate valve.

Further, described pre-filtering device comprises activated charcoal filter and the microfiltration membrane device being in series, and the membrane pore size of described microfiltration membrane device is less than 10 μ m, and activated charcoal filter is all communicated with drain vessel with the cleaning draining of microfiltration membrane device.

Further, the upflow tube of described stream platform is communicated with drain vessel.

Further, described pre-filtering device water outlet is communicated with the water-in of topping-up pump through the second vacuum breaker.

Principle of work of the present utility model: miniature water dispenser has different technological processs, comprises automatic cleaning process, water producing pipe road flushing process and the feedwater process of wash bottle process, feedwater inner cyclic process, two kinds of forms.Wash bottle process is wherein: close the first magnetic valve, source water flow to stream platform through feedwater valve, the first vacuum breaker, the first reducing valve, the 5th magnetic valve, the first constant flow rate valve, water hammer-resistant valve, under meter, the 3rd magnetic valve and the 4th vacuum breaker, carries out wash bottle.

Feedwater inner cyclic process is: close the 5th magnetic valve, source water flow to reverse osmosis unit through feedwater valve, the first vacuum breaker, the first reducing valve, tensimeter, the first magnetic valve, activated charcoal filter, microfiltration membrane device, the second vacuum breaker, topping-up pump, and the concentrated water discharge of the first water outlet of reverse osmosis unit is to drain vessel; The second water outlet flows out water purification, and water purification has two streamlines, and article one streamline is that water purification flow to the water-in of topping-up pump through the first valve, circulates, and second streamline is that water purification flow to stream platform through the second reducing valve, the second constant flow rate valve and the 5th vacuum breaker; The 3rd water outlet of reverse osmosis unit flows out tail water, and under the interception of the 3rd vacuum breaker, tail water flow to the water-in of topping-up pump through the second valve, the second magnetic valve, the 6th vacuum breaker, the 3rd valve, for feedwater is prepared.

The automatic cleaning process of the first form: close the first magnetic valve, the 3rd water outlet that source water flow to reverse osmosis unit through feedwater valve, the first vacuum breaker, the first reducing valve, the 5th magnetic valve, the first constant flow rate valve, the 3rd vacuum breaker, the second valve carries out reverse cleaning, the water outlet of the 3rd vacuum breaker flow to again the second water outlet of reverse osmosis unit through the second magnetic valve, the 6th vacuum breaker, the 3rd valve, the first valve, clean, the water outlet of the first valve simultaneously flow to stream platform through the second reducing valve, the second constant flow rate valve, the 5th vacuum breaker again, cleans.

The automatic cleaning process of the second form: close the first magnetic valve, close the second valve and the second magnetic valve, close the 4th magnetic valve, source water flow to stream platform through feedwater valve, the first vacuum breaker, the first reducing valve, the 5th magnetic valve, the first constant flow rate valve, water hammer-resistant valve, under meter, the 3rd magnetic valve, the 4th vacuum breaker, cleans.

Water producing pipe road flushing process: close the 5th magnetic valve, source water flow to reverse osmosis unit through feedwater valve, the first vacuum breaker, the first reducing valve, tensimeter, the first magnetic valve, activated charcoal filter, microfiltration membrane device, the second vacuum breaker, topping-up pump, the second water outlet water outlet of reverse osmosis unit flow to the water-in of topping-up pump through the first valve, the water outlet of the second water outlet flow to stream platform through the second reducing valve, the second constant flow rate valve, the 5th vacuum breaker again, carries out the flushing of water producing pipe road.

Feedwater process: close the 5th magnetic valve, source water flow to reverse osmosis unit through feedwater valve, the first vacuum breaker, the first reducing valve, tensimeter, the first magnetic valve, activated charcoal filter, microfiltration membrane device, the second vacuum breaker, topping-up pump, the second water outlet water outlet of reverse osmosis unit flow to the water-in of topping-up pump through the first valve, the water outlet of the second water outlet flow to stream platform through the second reducing valve, the second constant flow rate valve, the 5th vacuum breaker again, produces water.

The beneficial effects of the utility model: miniature water dispenser has different technological processs, the automatic cleaning process, water producing pipe road flushing process and the feedwater process that comprise wash bottle process, feedwater inner cyclic process, two kinds of forms, can thoroughly clean water dispenser, do not stay dead angle, can residual pathogenic bacterium, and the tail water of reverse osmosis unit is circulated to import, again process, improved producing water ratio.

Accompanying drawing explanation

Fig. 1 is the principle schematic of the miniature water dispenser that a kind of producing water ratio of the utility model is high;

Fig. 2 is the wash bottle Principle of Process figure of miniature water dispenser in Fig. 1;

Fig. 3 is the feedwater inner cyclic process schematic diagram of miniature water dispenser in Fig. 1;

Fig. 4 is the automatic cleaning process schematic diagram of the first form of miniature water dispenser in Fig. 1;

Fig. 5 is the automatic cleaning process schematic diagram of the second form of miniature water dispenser in Fig. 1;

Fig. 6 is the water producing pipe road flushing process schematic diagram of miniature water dispenser in Fig. 1;

Fig. 7 is the feedwater Principle of Process figure of miniature water dispenser in Fig. 1.

In above accompanying drawing: 1. topping-up pump; 2a. the first water outlet; 2b. the second water outlet; 2c. the 3rd water outlet; 3. drain vessel; 4. the first valve; 5. the second reducing valve; 6. the 5th vacuum breaker; 7. flow platform; 8. the second valve; 9. the 3rd vacuum breaker; 10. water hammer-resistant valve; 11. under meters; 12. the 3rd magnetic valves; 13. the 4th vacuum breaker; 14. the 4th magnetic valves; 15. second magnetic valves; 16. the 6th vacuum breaker; 17. the 3rd valves; 18. second constant flow rate valves; 19. activated charcoal filters; 20. microfiltration membrane devices; 21. feedwater valves; 22. first vacuum breaker; 23. first reducing valve; 24. tensimeters; 25. first magnetic valves; 26. the 5th magnetic valves; 27. first constant flow rate valves; 28. second vacuum breaker.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further described:

Embodiment: shown in Figure 1, the miniature water dispenser that a kind of producing water ratio is high, comprise pre-filtering device and reverse osmosis unit, the water-in of described pre-filtering device is communicated with source water, water outlet is communicated with the water-in of reverse osmosis unit through a topping-up pump 1, and described reverse osmosis unit has the first water outlet 2a, the second water outlet 2b and the 3rd water outlet 2c;

Source water is communicated with the water-in of pre-filtering device through feedwater valve 21, the first vacuum breaker 22, the first reducing valve 23, tensimeter 24, the first magnetic valve 25 successively, and the water outlet of the first reducing valve 23 is communicated with stream platform 7 through the 5th magnetic valve 26, the first constant flow rate valve 27, under meter 11, the 3rd magnetic valve 12, the 4th vacuum breaker 13 again successively; The water outlet of the 3rd magnetic valve 12 is communicated with stream platform 7 through one the 4th magnetic valve 14 again;

The water outlet of described the first constant flow rate valve 27 is communicated with the water-in of the second magnetic valve 15 through the 3rd vacuum breaker 9 again;

The first water outlet 2a of described reverse osmosis unit is concentrated water discharge mouth, is communicated with drain vessel 3; The second water outlet 2b connects two streamlines, and wherein a streamline is that the second water outlet 2b is communicated with the water-in of topping-up pump 1 through one first valve 4, and another streamline is that the second water outlet 2b is communicated with stream platform 7 through the second reducing valve 5 and the 5th vacuum breaker 6 successively; Described the 3rd water outlet 2c is communicated with the water-in of topping-up pump 1 through the second valve 8, the second magnetic valve 15, the 6th vacuum breaker 16, the 3rd valve 17 successively.

Pipeline between described the first constant flow rate valve 27 and under meter 11 is provided with water hammer-resistant valve 10.

Pipeline between described the second reducing valve 5 and the 5th vacuum breaker 6 is provided with the second constant flow rate valve 18.

Described pre-filtering device comprises activated charcoal filter 19 and the microfiltration membrane device 20 being in series, and the membrane pore size of described microfiltration membrane device 20 is less than 10 μ m, and activated charcoal filter 19 is all communicated with drain vessel 3 with the cleaning draining of microfiltration membrane device 20.

The upflow tube of described stream platform 7 is communicated with drain vessel 3.

Described pre-filtering device water outlet is communicated with the water-in of topping-up pump 1 through the second vacuum breaker 28.

Referring to Fig. 2, wash bottle process is: close the first magnetic valve, source water flow to stream platform through feedwater valve, the first vacuum breaker, the first reducing valve, the 5th magnetic valve, the first constant flow rate valve, water hammer-resistant valve, under meter, the 3rd magnetic valve and the 4th vacuum breaker, carries out wash bottle.

Referring to Fig. 3, feedwater inner cyclic process is: close the 5th magnetic valve, source water flow to reverse osmosis unit through feedwater valve, the first vacuum breaker, the first reducing valve, tensimeter, the first magnetic valve, activated charcoal filter, microfiltration membrane device, the second vacuum breaker, topping-up pump, and the concentrated water discharge of the first water outlet of reverse osmosis unit is to drain vessel; The second water outlet flows out water purification, and water purification has two streamlines, and article one streamline is that water purification flow to the water-in of topping-up pump through the first valve, circulates, and second streamline is that water purification flow to stream platform through the second reducing valve, the second constant flow rate valve and the 5th vacuum breaker; The 3rd water outlet of reverse osmosis unit flows out tail water, and under the interception of the 3rd vacuum breaker, tail water flow to the water-in of topping-up pump through the second valve, the second magnetic valve, the 6th vacuum breaker, the 3rd valve, for feedwater is prepared.

Referring to Fig. 4, the automatic cleaning process of the first form: close the first magnetic valve, source water is through feedwater valve, the first vacuum breaker, the first reducing valve, the 5th magnetic valve, the first constant flow rate valve, the 3rd vacuum breaker, the 3rd water outlet that the second valve flow to reverse osmosis unit carries out reverse cleaning, the water outlet of the 3rd vacuum breaker is again through the second magnetic valve, the 6th vacuum breaker, the 3rd valve, the first valve flow to the second water outlet of reverse osmosis unit, clean, the water outlet of the first valve is again through the second reducing valve simultaneously, the second constant flow rate valve, the 5th vacuum breaker flow to stream platform, clean.

Referring to Fig. 5, the automatic cleaning process of the second form: close the first magnetic valve, close the second valve and the second magnetic valve, close the 4th magnetic valve, source water flow to stream platform through feedwater valve, the first vacuum breaker, the first reducing valve, the 5th magnetic valve, the first constant flow rate valve, water hammer-resistant valve, under meter, the 3rd magnetic valve, the 4th vacuum breaker, cleans.

Referring to Fig. 6, water producing pipe road flushing process: close the 5th magnetic valve, source water flow to reverse osmosis unit through feedwater valve, the first vacuum breaker, the first reducing valve, tensimeter, the first magnetic valve, activated charcoal filter, microfiltration membrane device, the second vacuum breaker, topping-up pump, the second water outlet water outlet of reverse osmosis unit flow to the water-in of topping-up pump through the first valve, the water outlet of the second water outlet flow to stream platform through the second reducing valve, the second constant flow rate valve, the 5th vacuum breaker again, carries out the flushing of water producing pipe road.

Referring to Fig. 7, feedwater process: close the 5th magnetic valve, source water flow to reverse osmosis unit through feedwater valve, the first vacuum breaker, the first reducing valve, tensimeter, the first magnetic valve, activated charcoal filter, microfiltration membrane device, the second vacuum breaker, topping-up pump, the second water outlet water outlet of reverse osmosis unit flow to the water-in of topping-up pump through the first valve, the water outlet of the second water outlet flow to stream platform through the second reducing valve, the second constant flow rate valve, the 5th vacuum breaker again, produces water.

Above-described embodiment is only explanation technical conceive of the present utility model and feature, and its object is to allow person skilled in the art can understand content of the present utility model and implement according to this, can not limit protection domain of the present utility model with this.All equivalences of doing according to the utility model spirit change or modify, within all should being encompassed in protection domain of the present utility model.

Claims (6)

1. the miniature water dispenser that producing water ratio is high, comprise pre-filtering device and reverse osmosis unit, the water-in of described pre-filtering device is communicated with source water, water outlet is communicated with the water-in of reverse osmosis unit through a topping-up pump (1), it is characterized in that: described reverse osmosis unit has the first water outlet (2a), the second water outlet (2b) and the 3rd water outlet (2c);

Source water is communicated with the water-in of pre-filtering device through feedwater valve (21), the first vacuum breaker (22), the first reducing valve (23), tensimeter (24), the first magnetic valve (25) successively, and the water outlet of the first reducing valve (23) is communicated with stream platform (7) through the 5th magnetic valve (26), the first constant flow rate valve (27), under meter (11), the 3rd magnetic valve (12), the 4th vacuum breaker (13) again successively; The water outlet of the 3rd magnetic valve (12) is communicated with stream platform (7) through one the 4th magnetic valve (14) again;

The water outlet of described the first constant flow rate valve (27) is communicated with the water-in of the second magnetic valve (15) through the 3rd vacuum breaker (9) again;

First water outlet (2a) of described reverse osmosis unit is concentrated water discharge mouth, is communicated with drain vessel (3); The second water outlet (2b) connects two streamlines, wherein a streamline is that the second water outlet (2b) is communicated with the water-in of topping-up pump (1) through one first valve (4), and another streamline is that the second water outlet (2b) is communicated with stream platform (7) through the second reducing valve (5) and the 5th vacuum breaker (6) successively; Described the 3rd water outlet (2c) is communicated with the water-in of topping-up pump (1) through the second valve (8), the second magnetic valve (15), the 6th vacuum breaker (16), the 3rd valve (17) successively.

2. miniature water dispenser according to claim 1, is characterized in that: the pipeline between described the first constant flow rate valve (27) and under meter (11) is provided with water hammer-resistant valve (10).

3. miniature water dispenser according to claim 1, is characterized in that: the pipeline between described the second reducing valve (5) and the 5th vacuum breaker (6) is provided with the second constant flow rate valve (18).

4. miniature water dispenser according to claim 1, it is characterized in that: described pre-filtering device comprises activated charcoal filter (19) and the microfiltration membrane device (20) being in series, the membrane pore size of described microfiltration membrane device (20) is less than 10 μ m, and activated charcoal filter (19) is all communicated with drain vessel (3) with the cleaning draining of microfiltration membrane device (20).

5. miniature water dispenser according to claim 1, is characterized in that: the upflow tube of described stream platform (7) is communicated with drain vessel (3).

6. miniature water dispenser according to claim 1, is characterized in that: described pre-filtering device water outlet is communicated with the water-in of topping-up pump (1) through the second vacuum breaker (28).

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