CN217297562U - Spring direct drinking engineering water purification system - Google Patents

Abstract

The utility model relates to an engineering water purification system is directly drunk to spring water, including former water tank, multi-media filter, precision filter, the filter of receiving nanofiltration, water purification case, water supply installation and the backwater device that communicate in proper order, former water tank and multi-media filter communicate by pipeline one, be provided with the raw water force (forcing) pump on the pipeline one, there is ozone generator water purification roof portion through the pipe connection, water purification case and water supply installation communicate by two pipelines, be provided with ultraviolet sterilizer on the pipeline two, backwater device and water purification case intercommunication. The utility model discloses well spring water is handled through many medium filter, precision filter, nanofiltration filter, water purification case, water supply installation and backwater device in proper order, can get rid of silt, granule, suspended solid, colloid, bacterium, virus etc. and total hardness of filtering separation, sulphate and nitrate etc. has remain the human required useful microelement and the mineral substance that are rich in the spring water when getting rid of a large amount of pollutants, embodies the spring water characteristic better.

Description

Spring water direct drinking engineering water purification system

Technical Field

The utility model relates to a chemical industry equipment technical field, in particular to spring water directly drinks engineering water purification system.

Background

Direct drinking water, also known as healthy running water; the method mainly adopts a separation membrane device and the like to filter the abnormal color, peculiar smell, residual chlorine, ozone hydrogen sulfide, bacteria, viruses and heavy metals in the water, block suspended particles and improve the water quality; meanwhile, the disinfection mode of ozone and ultraviolet rays is adopted to kill viruses and bacteria, so that the standard of drinking healthy water directly is achieved.

With the increasing living standard of people, the requirement on drinking water is higher and higher. The existing spring direct drinking engineering water purification machine room is mostly provided with a single membrane group for purification treatment, the quality of outlet water meets the drinking water purification standard, the process removes a large amount of pollutants to a certain extent and simultaneously removes a large amount of beneficial trace elements and mineral substances which are rich in spring water and are required by human bodies, and the problems of overhigh desalination rate, low water hardness and incapability of retaining the characteristic substances of underground spring water exist.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem provided in the background art, the utility model provides an engineering water purification system is directly drunk to spring water.

The utility model provides a pair of engineering water purification system is directly drunk to spring water adopts following technical scheme:

the utility model provides a spring water is engineering water purification system of directly drinking, is including the former water tank, many media filter, precision filter, the nanofiltration filter, water purification case, water supply installation and the return water device that communicate in proper order, former water tank and many media filter are by pipeline one intercommunication, be provided with the raw water force (forcing) pump on the pipeline one, there is ozone generator at water purification roof portion through the pipe connection, water purification case and water supply installation are by two intercommunications of pipeline, be provided with ultraviolet sterilizer on the pipeline two, return water device and water purification case intercommunication.

By adopting the technical scheme, the spring water sequentially passes through the multi-media filter, the precision filter, the nanofiltration filter, the water purification tank, the water supply device and the water return device, macroscopic impurities such as silt, particles, suspended matters, colloid and the like in the spring water, and harmful substances such as bacteria, viruses and the like can be removed, the total hardness of filtration and separation, sulfate, nitrate and the like are achieved, beneficial trace elements and mineral substances which are needed by a human body and are rich in the spring water are kept while a large amount of pollutants are removed, the spring water characteristic is better embodied, the taste of direct drinking water is improved, the optimization and the upgrade of the existing water purification process are realized, and the direct drinking characteristic water purification process of the spring water is highlighted.

Preferably, a raw water quality monitor is arranged between the raw water pressurizing pump and the multi-media filter, and a purified water quality monitor is arranged between the ultraviolet sterilizer and the water supply device.

Through adopting above-mentioned technical scheme, can in time monitor the quality of water that flows out raw water tank and water purification case.

Preferably, a concentrated water pipe is connected to a concentrated water outlet of the nanofiltration filter.

By adopting the technical scheme, the concentrated water in the nanofiltration filter can be discharged in time.

Preferably, the water supply device comprises a low-region water supply assembly and a high-region water supply assembly, the water outlet of the second pipeline is respectively connected with the water inlet of the low-region water supply assembly and the water inlet of the high-region water supply assembly, and the low-region water supply assembly and the high-region water supply assembly are arranged in parallel through pipelines.

By adopting the technical scheme, water can be supplied to high-area users and low-area users respectively, and the stability of water pressure is ensured.

Preferably, the low district water supply subassembly includes low district's water supply pump, low district surge tank and low district delivery pipe, low district's water supply pump and low district surge tank pass through the pipeline intercommunication, the delivery port of low district surge tank is connected with the one end of low district delivery pipe, the high district water supply subassembly includes high district water supply pump, high district surge tank and high district delivery pipe, pass through the pipeline intercommunication between high district water supply pump and the high district surge tank, the delivery port of high district surge tank is connected with the one end of high district delivery pipe.

Preferably, the water return device comprises a water return precision filter and a water return pipe, the other end of the low-region water supply pipe and the other end of the high-region water supply pipe are respectively connected with the water inlet end of the water return pipe, the water outlet end of the water return pipe is connected with the water inlet of the water return precision filter, and the water return precision filter is communicated with the purified water tank through a pipeline.

Through adopting above-mentioned technical scheme, when the water in the delivery pipe is not in time used by the user, can loop through wet return and return water precision filter and flow back to the water purification case, disinfect the disinfection through ozone generator and ultraviolet sterilizer once more and then supply water for the user by water supply installation, prevent to form the stagnant water in the delivery pipe, cause the pollution.

Preferably, a first water outlet is formed in the low-region water supply pipe, a second water outlet is formed in the high-region water supply pipe, the first water outlet is communicated with low-region users through a pipeline, and the second water outlet is communicated with high-region users through a pipeline.

Preferably, the low-region water supply pipe, the high-region water supply pipe and the water return pipe are all made of food-grade 304 stainless steel pipes.

To sum up, the utility model discloses following useful technological effect has:

1. the utility model discloses well spring water passes through many medium filter in proper order, ultrafilter, receive the filter, the water purification case, water supply installation and backwater device, can get rid of macroscopic silt in the spring water, the granule, impurity such as suspended solid and colloid, and bacterium, harmful substance such as virus, the total hardness of filtration separation, sulfate and nitrate etc., the required useful microelement of human body and the mineral substance that are rich in the spring water have been kept when getting rid of a large amount of pollutants, reflect the spring water characteristic better, promote the taste of straight drinking water, the realization is to the optimization upgrading of current water purification technology, outstanding spring water is straight special water purification technology of drinking.

2. The utility model, through the arrangement of the water supply device and the water return device, when the water in the water supply pipe is not used by the user in time, the water can flow back to the water purification tank through the water return pipe and the water return precise filter, and the water is supplied to the user by the water supply device after being sterilized and disinfected by the ozone generator and the ultraviolet sterilizer again, thereby improving the safety of the drinking water quality and preventing the formation of dead water in the water supply pipe and causing pollution; and can supply water to users in the high area and users in the bottom area respectively, thereby ensuring the stability of the water pressure of the users.

3. The utility model discloses the input cost is low, and the benefit is high, can effectively improve the security of resident family's drinking water, and can so that the user drinks high-quality straight drinking water with less fund, can effectively improve user's standard of living, guarantee user's healthy.

Drawings

Figure 1 is the structure schematic diagram of the utility model relates to a spring direct drinking engineering water purification system.

Wherein, 1, a raw water tank; 2. a multi-media filter; 3. a precision filter; 4. a nanofiltration filter; 5. a water purifying tank; 6. a first water outlet; 7. a water outlet II; 8. a first pipeline; 9. a raw water pressure pump; 10. an ozone generator; 11. a second pipeline; 12. an ultraviolet sterilizer; 13. a raw water quality monitor; 14. a purified water quality monitor; 15. a concentrated water pipe; 16. a low-region water supply pump; 17. a low-region surge tank; 18. a low-region water supply pipe; 19. a high-region water supply pump; 20. a high-region surge tank; 21. a high-region water supply pipe; 22. a backwater precision filter; 23. a water return pipe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The embodiment of the utility model discloses engineering water purification system is directly drunk to spring water.

Referring to fig. 1, including the former water tank 1, many medium filter 2, precision filter 3, receive and strain filter 4, water purification tank 5, water supply installation and the return water device that communicate in proper order, former water tank 1 communicates by pipeline 8 with many medium filter 2, be provided with raw water force (forcing) pump 9 on the pipeline 8, be provided with raw water quality monitoring instrument 13 between raw water force (forcing) pump 9 and many medium filter 2, there is ozone generator 10 at the top of water purification tank 5 through the pipe connection, water purification tank 5 communicates by pipeline two 11 with water supply installation, be provided with ultraviolet sterilizer 12 on the pipeline two 11, be provided with water purification quality monitoring instrument 14 between ultraviolet sterilizer 12 and the water supply installation, water supply installation includes low district water supply assembly and high district water supply assembly, the delivery port of pipeline two 11 is connected with the water inlet of low district water supply assembly and the water inlet of high district water supply assembly respectively, low district water supply assembly and high district water supply assembly pass through the parallelly connected setting of pipeline, low district water supply assembly includes low district working shaft 16, low district surge tank 17 and low district delivery pipe 18, low district working shaft 16 and low district surge tank 17 pass through the pipeline intercommunication, the delivery port of low district surge tank 17 is connected with the one end of low district delivery pipe 18, high district water supply assembly includes high district working shaft 19, high district surge tank 20 and high district delivery pipe 21, through the pipeline intercommunication between high district working shaft 19 and the high district surge tank 20, the delivery port of high district surge tank 20 is connected with the one end of high district delivery pipe 21. The backwater device is communicated with the purified water tank 5 and comprises a backwater precision filter 22 and a backwater pipe 23, the other end of the low-region water supply pipe 18 and the other end of the high-region water supply pipe 21 are respectively connected with the water inlet end of the backwater pipe 23, the water outlet end of the backwater pipe 23 is connected with the water inlet of the backwater precision filter 22, and the backwater precision filter 22 is communicated with the purified water tank 5 through a pipeline. A concentrated water pipe 15 is connected to the concentrated water outlet of the nanofiltration filter 4. The low-region water supply pipe 18 is provided with a first water outlet 6, the high-region water supply pipe 21 is provided with a second water outlet 7, the first water outlet 6 is communicated with low-region users through a pipeline, and the second water outlet 7 is communicated with high-region users through a pipeline. The low-region water supply pipe 18, the high-region water supply pipe 19 and the water return pipe 23 are all made of 304 stainless steel pipes.

The working principle is as follows: spring water in a raw water tank 1 sequentially passes through a multi-media filter 2, a precision filter 3 and a nanofiltration filter 4 under the action of a raw water pressure pump 9 on a pipeline I8 to be filtered, impurities such as silt, particles, suspended matters and colloid visible to the naked eye in the spring water are removed, total hardness, sulfate, nitrate and the like are filtered and separated, nanofiltration membranes with different desalination rates are selected according to the water quality condition of the raw water, a large number of pollutants are removed, beneficial trace elements and mineral substances required by a human body and rich in the spring water are kept, the spring water characteristic is better embodied, the taste of direct drinking water is improved, optimization and upgrading of an existing water purification process are realized, and the direct drinking spring water characteristic water purification process is highlighted. The filtered water enters a water purification tank 5, and the water purification tank 5 is sterilized and disinfected by an ozone generator 10 and an ultraviolet sterilizer 12, wherein the ozone generator 10 and the ultraviolet sterilizer 12 are used in the prior art. Then the water returns to the purified water tank 5 through the low-region pressure stabilizing tank 17, the low-region water supply pipe 18, the water return pipe 23 and the water return precision filter 22 under the action of the low-region water supply pump 16 for sterilization and disinfection, the water returns to the purified water tank 5 through the high-region pressure stabilizing tank 20, the high-region water supply pipe 21, the water return pipe 23 and the water return precision filter 22 under the action of the high-region water supply pump 19 for sterilization and disinfection, the first water outlet 6 on the low-region water supply pipe 18 is connected with the low-region user water terminal, the second water outlet 7 on the high-region water supply pipe 21 is connected with the high-region user water terminal, the water return pipe 23 is arranged to enable the water supply system to achieve dynamic circulation, the water returning to the purified water tank 5 can be filtered through the water return precision filter 22, and the cleanliness of water quality is guaranteed. Through the setting of raw water quality monitor 13 and clean water quality monitor 14, can in time monitor the quality of water that flows out raw water tank 1 and clean water tank 5, conveniently adjust.

Above is the preferred embodiment of the utility model, not limit according to this the utility model discloses a protection scope, the event: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an engineering water purification system is directly drunk to spring which characterized in that: including former water tank (1), multi-media filter (2), precision filter (3), the filter (4) of receiving nanofiltration, water purification case (5), water supply installation and the return water device that communicate in proper order, former water tank (1) and multi-media filter (2) are by pipeline (8) intercommunication, be provided with raw water force (forcing) pump (9) on pipeline (8), there are ozone generator (10) at water purification case (5) top through the pipe connection, water purification case (5) and water supply installation are by pipeline two (11) intercommunication, be provided with ultraviolet sterilizer (12) on pipeline two (11), return water device and water purification case (5) intercommunication.

2. The spring direct drinking engineering water purification system according to claim 1, characterized in that: a raw water quality monitor (13) is arranged between the raw water pressure pump (9) and the multi-medium filter (2), and a purified water quality monitor (14) is arranged between the ultraviolet sterilizer (12) and the water supply device.

3. The spring direct drinking engineering water purification system according to claim 1, characterized in that: a concentrated water outlet of the nanofiltration filter (4) is connected with a concentrated water pipe (15).

4. The spring direct drinking engineering water purification system according to claim 1, characterized in that: the water supply device comprises a low-region water supply assembly and a high-region water supply assembly, the water outlet of the second pipeline (11) is connected with the water inlet of the low-region water supply assembly and the water inlet of the high-region water supply assembly respectively, and the low-region water supply assembly and the high-region water supply assembly are arranged in parallel through pipelines.

5. The spring direct drinking engineering water purification system according to claim 4, characterized in that: the low district water supply subassembly includes low district water supply pump (16), low district surge tank (17) and low district delivery pipe (18), low district water supply pump (16) and low district surge tank (17) pass through the pipeline intercommunication, the delivery port of low district surge tank (17) is connected with the one end of low district delivery pipe (18), high district water supply subassembly includes high district water supply pump (19), high district surge tank (20) and high district delivery pipe (21), pass through the pipeline intercommunication between high district water supply pump (19) and high district surge tank (20), the delivery port of high district surge tank (20) is connected with the one end of high district delivery pipe (21).

6. The spring direct drinking engineering water purification system according to claim 5, characterized in that: the water return device comprises a water return precision filter (22) and a water return pipe (23), the other end of the low-region water supply pipe (18) and the other end of the high-region water supply pipe (21) are respectively connected with the water inlet end of the water return pipe (23), the water outlet end of the water return pipe (23) is connected with the water inlet of the water return precision filter (22), and the water return precision filter (22) is communicated with the water purification tank (5) through a pipeline.

7. The spring direct drinking engineering water purification system according to claim 5, characterized in that: the water supply system is characterized in that a first water outlet (6) is arranged on the low-region water supply pipe (18), a second water outlet (7) is arranged on the high-region water supply pipe (21), the first water outlet (6) is communicated with low-region users through a pipeline, and the second water outlet (7) is communicated with high-region users through a pipeline.

8. The spring direct drinking engineering water purification system according to claim 6, characterized in that: the low-region water supply pipe (18), the high-region water supply pipe (21) and the water return pipe (23) are all made of 304 stainless steel pipes.

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