CN212769993U - Full-automatic feeding operation softened water treatment device - Google Patents

Abstract

The utility model discloses a softened water treatment device with full-automatic feeding operation, which relates to the technical field of sodium hypochlorite equipment and comprises a softening tank, wherein softened resin is arranged in the softening tank, the water inlet end of the softening tank is communicated with a water storage tank, and the water outlet end of the softening tank is communicated with a water outlet pipe of the softening tank and a salt tank; the water inlet end of the softening tank is located at the bottom end of the softening tank, and the water outlet end of the softening tank is located at the top end of the softening tank. The utility model relates to a full-automatic softened water treatment facilities of throwing with operation has solved among the prior art softened water device and has consumed salt many, area big scheduling technical problem, the utility model relates to a full-automatic softened water treatment facilities of throwing with operation consumes salt water volume few, weak point consuming time, and the water demand is few, can effectual saving running cost, improves work efficiency, water economy resource.

Description

Full-automatic feeding operation softened water treatment device

Technical Field

The utility model relates to a sodium hypochlorite generator equipment technical field, in particular to a full-automatic softened water treatment device who adds the operation that throws for sodium hypochlorite generator.

Background

The sodium hypochlorite generator is one kind of water treatment disinfection and sterilization equipment, and this equipment uses salt solution as the raw materials, through electrolytic reaction production sodium hypochlorite solution, and sodium hypochlorite solution can play water purification, disinfect, sterile effect, and the mainly used hospital contains fungus sewage treatment and electroplates and contains cyanogen waste water treatment, still the wide application in swimming pool, domestic drinking water, domestic sewage disinfection, food processing factory environment, medical instrument and hotel, dining ware disinfection etc. in dining ware in dining room.

The water softening device for the sodium hypochlorite generator at present usually comprises a softening tank and a salt tank, wherein the softening tank is only provided with an opening on the tank top, and inlet water and outlet water all flow through the opening on the tank top and are controlled by a softening valve. The water softening device consumes a large amount of salt during regeneration, so that the requirement can be met only by a large salt box, the occupied area is large, the consumed time is long, the water demand is large, and the water softening device is not beneficial to saving water resources. Meanwhile, the water softening device fixes the program to operate, cannot participate in human operation, and is difficult to adapt to some equipment.

Disclosure of Invention

Aiming at the defects, the utility model aims at providing a full-automatic feeding operation softened water treatment device which has the advantages of less salt water consumption, small volume and small occupied area; consuming time and having less water demand, can effectively save the operation cost, improve the working efficiency and save water resources.

In order to realize the purpose, the technical scheme of the utility model is that:

a softened water treatment device capable of being fully automatically fed and operated comprises a softening tank, wherein softened resin is arranged in the softening tank, the water inlet end of the softening tank is communicated with a water storage tank, and the water outlet end of the softening tank is communicated with a water outlet pipe of the softening tank and a salt tank; the water inlet end of the softening tank is located at the bottom end of the softening tank, and the water outlet end of the softening tank is located at the top end of the softening tank.

Wherein a pressure pump is arranged between the softening tank and the water storage tank.

The water inlet end of the softening tank is provided with a softening tank water inlet end pipeline, the water outlet of the water storage tank is communicated with a water tank water outlet pipe, and the water tank water outlet pipe is communicated with the softening tank water inlet end pipeline; the booster pump is arranged on the water outlet pipe of the water tank.

The water inlet of the water storage tank is communicated with a water tank inlet pipe, the water tank inlet pipe is communicated with a water inlet pipe of the softening tank, the water tank inlet pipe is positioned in front of the water inlet pipe of the softening tank, and a back-flushing water inlet valve is arranged on the water inlet pipe between the water tank inlet pipe and the water inlet pipe of the softening tank.

The softening tank is characterized in that a water inlet end pipeline of the softening tank is communicated with a back-flushing blow-off pipe, and a back-flushing blow-off valve is arranged on the back-flushing blow-off pipe.

The water outlet end of the softening tank is provided with a softening tank water outlet end pipeline, a softening tank water outlet pipe is communicated with the softening tank water outlet end pipeline, and a softening tank water outlet valve is arranged on the softening tank water outlet pipe.

Wherein, the tail end of the water outlet end pipeline of the softening tank extends into the water outlet of the salt tank.

The salt tank is characterized in that a salt tank water outlet pipe is arranged in the salt tank, the salt tank water outlet pipe is communicated with the softening tank water outlet end pipeline, and the salt tank water outlet pipe and the softening tank water outlet end pipeline are not overlapped and are not parallel.

And a regeneration valve is arranged on a pipeline at the water outlet end of the softening tank between the water outlet pipe of the softening tank and the salt tank.

The water inlet of the salt tank is provided with a salt tank inlet pipe, and the salt tank inlet pipe is communicated with the water inlet pipe.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

the softened water treatment device for full-automatic feeding operation comprises a softening tank, wherein softened resin is arranged in the softening tank, the water inlet end of the softening tank is communicated with a water storage tank, and the water outlet end of the softening tank is communicated with a water outlet pipe of the softening tank and a salt tank; the water inlet end of the softening tank is positioned at the bottom end of the softening tank, and the water outlet end of the softening tank is positioned at the top end of the softening tank. The utility model relates to a full-automatic softened water treatment facilities who throws and add operation's softening jar has two trompils of water inlet end and water outlet end, and running water gets into from the water inlet end, and the water after softening is discharged by water outlet end, can great reduction regeneration salt water's quantity, compare with current softened water device, regeneration can practice thrift salt water about 58%, only needs a less salt case just can satisfy the requirement, has greatly reduced the holistic volume of softened water device, has reduced area, is favorable to practicing thrift the space; and the regeneration time is only 0.6 hour, which is shortened by about 70 percent compared with the water softening device in the prior art; the water consumption is greatly reduced, 75L of water is only used for regeneration once, and about 87 percent of water is saved. It is thus clear that the utility model discloses the great saving salt, water and time of demineralized water treatment facilities has not only practiced thrift the running cost, still is favorable to improving the softening efficiency of demineralized water device, the water economy resource. Simultaneously the utility model relates to a full-automatic softened water treatment facilities who throws with operation can artificially participate in control, has solved the problem that intrinsic operation procedure can not change, and convenient and other equipment are supporting to be used.

To sum up, the utility model relates to a full-automatic softened water treatment facilities who throws with operation has solved many, the big scheduling technical problem of area of softened water device salt consumption among the prior art, the utility model relates to a full-automatic softened water treatment facilities who throws with operation consumes few, weak point consuming time, and the water demand is few, can effectual saving running cost, improves work efficiency, water economy resource.

Drawings

FIG. 1 is a schematic structural view of a fully automatic operation softened water treatment device of the present invention;

in the figure: 10. softening tank, 20, softening resin, 30, water storage tank, 40, booster pump, 50, salt tank, 60, water inlet pipe, 62, water tank inlet pipe, 64, water tank outlet pipe, 66, back flush blow-off pipe, 68, softening tank water inlet end pipeline, 70, salt tank inlet pipe, 72, softening tank water outlet end pipeline, 74, softening tank water outlet pipe, 76, salt tank water outlet pipe, 80, back flush water inlet valve, 82, back flush blow-off valve, 84, softening tank water outlet valve, 86 and regeneration valve.

Detailed Description

The invention is further explained below with reference to the drawings and examples.

All the orientations referred to in the present specification are based on the orientations shown in the drawings, and only represent relative positional relationships, not absolute positional relationships.

As shown in figure 1, the fully-automatic feeding operation softened water treatment device comprises a softening tank 10, wherein softened resin 20 is arranged in the softening tank 10, the water inlet end of the softening tank 10 is communicated with a water storage tank 30, a pressure pump 40 is arranged between the softening tank 10 and the water storage tank 30, and the water outlet end of the softening tank 10 is communicated with a softening tank water outlet pipe 74 and a salt tank 50. The water inlet end of the softening tank 10 is positioned at the bottom end of the softening tank 10, and the water outlet end of the softening tank 10 is positioned at the top end of the softening tank 10.

As shown in fig. 1, a water inlet end pipeline 68 of the softening tank 10 is arranged at a water inlet end of the softening tank, a water outlet of the water storage tank 30 is communicated with a water tank outlet pipe 64, the water tank outlet pipe 64 is communicated with the water inlet end pipeline 68 of the softening tank, the pressure pump 40 is arranged on the water tank outlet pipe 64, and the pressure pump 40 is used for pumping water in the water storage tank 30 into the softening tank 10 for softening treatment.

As shown in FIG. 1, the water inlet of the water storage tank 30 is communicated with a water tank inlet pipe 62, the water tank inlet pipe 62 is communicated with a water inlet end pipeline 68 of the softening tank, and the water inlet pipe 60 is communicated with municipal tap water. According to the water flow direction, the water inlet direction is defined as the front, the connection port of the water tank inlet pipe 62 and the water inlet pipe 60 is located at the front, the connection port of the softening tank inlet end pipeline 68 and the water inlet pipe 60 is located at the rear, that is, the water tank inlet pipe 62 is located at the front of the softening tank inlet end pipeline 68. A back flush inlet valve 80 is provided on the inlet pipe 60 between the tank inlet pipe 62 and the softening tank inlet end line 68.

As shown in figure 1, a water inlet end pipeline 68 of the softening tank is communicated with a back flush sewage discharge pipe 66, and a back flush sewage discharge valve 82 is arranged on the back flush sewage discharge pipe 66. In the preferred embodiment, the backwashing sewage pipe 66 and the water inlet pipe 60 are the same pipeline, the water inlet pipe 60 is located in front of the communication interface of the water inlet end pipeline 68 and the water inlet pipe 60 of the softening tank, and the backwashing sewage pipe 66 is located behind the communication interface of the water inlet end pipeline 68 and the water inlet pipe 60 of the softening tank.

As shown in FIG. 1, a water outlet end pipeline 72 of the softening tank is arranged at the water outlet end of the softening tank 10, a water outlet pipe 74 of the softening tank is communicated with the water outlet end pipeline 72 of the softening tank, a water outlet valve 84 of the softening tank is arranged on the water outlet pipe 74 of the softening tank, and softened water after softening treatment is discharged from the water outlet pipe 74 of the softening tank.

As shown in fig. 1, the salt tank 30 is provided with a water inlet and a water outlet. The end of the softening tank water outlet end pipeline 72 extends into the water outlet of the salt tank 30, a salt tank water outlet pipe 76 is arranged in the salt tank 30 and close to the water outlet, and the salt tank water outlet pipe 76 is communicated with the end of the softening tank water outlet end pipeline 72. In the present embodiment, the middle of the water outlet pipe 76 of the salt tank is preferably communicated with the water outlet end pipeline 72 of the softening tank, the water outlet pipe 76 of the salt tank and the water outlet end pipeline 72 of the softening tank are not coincident or parallel, i.e., a certain angle is formed between the water outlet pipe 76 of the salt tank and the water outlet end pipeline 72 of the softening tank, the included angle is further preferably a right angle, i.e., the water outlet pipe 76 of the salt tank is perpendicular to the water outlet end pipeline 72 of the softening tank, and the water outlet pipe 76 of the salt tank is horizontally. The horizontal arrangement of the salt tank outlet pipe 76 can effectively prevent the water outlet of the salt tank 30 from being blocked. The regeneration valve 86 is arranged on the softening tank water outlet end pipeline 72 between the interface of the softening tank water outlet pipe 74 communicated with the softening tank water outlet end pipeline 72 and the water outlet of the salt tank 30, namely the regeneration valve 86 is arranged on the softening tank water outlet end pipeline 72 between the softening tank water outlet pipe 74 and the salt tank 30. The water inlet of the salt tank 30 is provided with a salt tank inlet pipe 70, and the salt tank inlet pipe 70 is communicated with the water inlet pipe 60 and used for water supplement of the salt tank 30. In the present embodiment, the volume of the salt tank 30 is preferably 25L, and the concentration of the brine in the salt tank 30 is preferably 8% to 10%.

As shown in figure 1, the working principle of the fully automatic operation softened water treatment device of the utility model is as follows:

the water production process comprises the following steps: tap water enters the water storage tank 30 through the water inlet pipe 60, is pressurized by the pressure pump 40, then enters the softening tank 10 through the water tank water outlet pipe 64 and the softening tank water inlet end pipeline 68, opens the softening tank water outlet valve 84, is softened by the softening resin 20, and then flows out through the softening tank water outlet pipe 74.

A backwashing process: when the softening tank 10 needs to be regenerated, the softening tank is backwashed firstly, the backwash water inlet valve 80 is opened, backwash water enters the softening tank 10 through the water inlet pipe 60 and the water inlet end pipeline 68 of the softening tank, and the softening tank 10 is backwashed. The backwash sewage discharge valve 82 is opened and the backwashed sewage is discharged through the backwash sewage discharge pipe 66.

And (3) a regeneration process: after the backwashing is finished, the backwashing water inlet valve 80 and the backwashing sewage valve 82 are closed, the regeneration valve 86 is opened, the salt water in the salt tank 50 enters the softening tank 10 through the salt tank water outlet pipe 76 and the softening tank water outlet end pipeline 72, the softening resin 20 is soaked, after the soaking is finished, the backwashing sewage valve 82 is opened, and the regeneration wastewater is discharged through the softening tank water inlet end pipeline 68 and the backwashing sewage pipe 66.

And (3) washing process: after regeneration is finished, the backwashing water inlet valve 80 is opened up, tap water enters the softening tank 10 through the water inlet pipe 60 and the softening tank water inlet end pipeline 68 to flush the softening tank 10, and the flushing water is discharged through the backwashing sewage discharge pipe 66.

Water replenishing of a salt box: tap water enters the salt tank 50 through the water inlet pipe 60 and the salt tank water inlet pipe 70, and water is supplemented to the salt tank 50 to prepare brine for regeneration.

The utility model relates to a full-automatic operation of throwing softened water treatment facilities of operation regeneration one-time operation data record as follows:

serial number

Amount of salt used

Amount of salt water

Time of salt absorption

Soaking time

Time of rinsing

Water replenishing time of salt tank

Amount of washing water

1

2.5 kg

25L

2min

30min

2min

2min

50L

The utility model relates to a softened water treatment facilities of full-automatic throwing operation and among the prior art with specification softened water device technical parameter contrast as follows:

can derive by above-mentioned contrast, the utility model relates to a softened water treatment facilities of full-automatic operation of throwing compares with current softened water device: the brine can be saved by about 58% each time, the total water consumption can be saved by about 87%, and the time can be shortened by about 70%. Therefore, the fully-automatic feeding operation softened water treatment device of the utility model can greatly reduce the consumption of regenerated brine, and can meet the requirement only by a smaller salt tank, thereby greatly reducing the overall volume of the softened water treatment device, reducing the occupied area and being beneficial to saving space; and water resources and running cost can be greatly saved, and production efficiency is improved. Simultaneously the utility model relates to a full-automatic softened water treatment facilities who throws with operation can artificially participate in control, has solved the problem that intrinsic operation procedure can not change, and convenient and other equipment are supporting to be used.

The present invention is not limited to the above specific embodiments, and those skilled in the art can make various changes without creative labor from the above conception, and all the changes fall within the protection scope of the present invention.

Claims (10)

1. A softened water treatment device capable of being fully automatically fed and operated comprises a softening tank, wherein softened resin is arranged in the softening tank, and the softened water treatment device is characterized in that a water inlet end of the softening tank is communicated with a water storage tank, and a water outlet end of the softening tank is communicated with a water outlet pipe of the softening tank and a salt tank; the water inlet end of the softening tank is located at the bottom end of the softening tank, and the water outlet end of the softening tank is located at the top end of the softening tank.

2. The fully automatic dosing operation softened water treatment device according to claim 1, characterized in that a pressure pump is arranged between the softening tank and the water storage tank.

3. The fully automatic dosing operation softened water treatment device according to claim 2, characterized in that the water inlet end of the softening tank is provided with a softening tank water inlet end pipeline, the water outlet of the water storage tank is communicated with a water tank water outlet pipe, and the water tank water outlet pipe is communicated with the softening tank water inlet end pipeline; the booster pump is arranged on the water outlet pipe of the water tank.

4. The fully automatic dosing operation softened water treatment device according to claim 3, characterized in that the water inlet of the water storage tank is communicated with a water tank inlet pipe, the water tank inlet pipe and the water inlet end pipeline of the softening tank are communicated with a water inlet pipe, the water tank inlet pipe is positioned at the front end of the water inlet end pipeline of the softening tank, and a back flush water inlet valve is arranged on the water inlet pipe positioned between the water tank inlet pipe and the water inlet end pipeline of the softening tank.

5. The fully automatic feeding operation softened water treatment device according to claim 3, characterized in that the water inlet end pipeline of the softening tank is communicated with a back flush drain pipe, and a back flush drain valve is arranged on the back flush drain pipe.

6. The fully automatic dosing operation softened water treatment device according to claim 1, characterized in that the water outlet end of the softening tank is provided with a softening tank water outlet end pipeline, the softening tank water outlet pipe is communicated with the softening tank water outlet end pipeline, and the softening tank water outlet pipe is provided with a softening tank water outlet valve.

7. The fully automatic dosing operation softened water treatment device according to claim 6, characterized in that the end of the softening tank water outlet end pipeline extends into the water outlet of the salt tank.

8. The fully automatic dosing operation softened water treatment device according to claim 7, characterized in that a salt tank outlet pipe is arranged in the salt tank, the salt tank outlet pipe is communicated with the softening tank outlet end pipeline, and the salt tank outlet pipe and the softening tank outlet end pipeline are not coincident or parallel.

9. The fully automatic commissioning softened water treatment device of claim 8, wherein a regeneration valve is arranged on the water outlet end pipeline of the softening tank between the water outlet pipe of the softening tank and the salt tank.

10. The fully automatic feeding operation softened water treatment device according to claim 4, characterized in that the water inlet of the salt tank is provided with a salt tank inlet pipe which is communicated with the water inlet pipe.

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