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CN-224231751-U - Adaptive water monitor

CN224231751UCN 224231751 UCN224231751 UCN 224231751UCN-224231751-U

Abstract

The utility model discloses an adaptive water monitor which comprises a water inlet pipeline communicated with a pure water pipeline of a water purifier, a water outlet pipeline and a water outlet pipeline, wherein the water inlet pipeline and the water outlet pipeline are respectively communicated with the water inlet pipeline, a TDS (total dissolved oxygen) detection probe is arranged on the water inlet pipeline, a first water inlet electromagnetic valve is arranged on the water outlet pipeline, a second water inlet electromagnetic valve is arranged on the water outlet pipeline, and a rear filter element is communicated with the rear end of the first water inlet electromagnetic valve on the water outlet pipeline. The adaptive water monitor is matched with a water purifier to detect whether the TDS of purified water of the water purifier accords with the direct drinking standard, and further directly quotes or discharges the purified water selectively to obtain adaptive water quality, and particularly the problem of high TDS of head cup water can be effectively solved.

Inventors

  • LIU XIAOLIN
  • HUO YAN
  • GAO ZERONG

Assignees

  • 浙江金橙环保科技有限公司

Dates

Publication Date
20260512
Application Date
20241107

Claims (3)

  1. 1. The adapting water monitor is characterized by comprising a water inlet pipeline communicated with a pure water pipeline of the water purifier, a drainage pipeline and a water outlet pipeline which are respectively communicated with the water inlet pipeline, wherein the water inlet pipeline is provided with a TDS detection probe (1), the water outlet pipeline is provided with a first water inlet electromagnetic valve (2), the drainage pipeline is provided with a second water inlet electromagnetic valve (3), and the water outlet pipeline is communicated with a rear filter element (4) positioned at the rear end of the first water inlet electromagnetic valve (2); The adaptive water monitor further comprises a controller electrically connected with the TDS detection probe (1), the first water inlet electromagnetic valve (2) and the second water inlet electromagnetic valve (3) so as to regulate and control the start and stop of the first water inlet electromagnetic valve (2) or the second water inlet electromagnetic valve (3) according to the detection feedback of the TDS detection probe (1).
  2. 2. The fitting water monitor according to claim 1, further comprising a housing (5) for housing a water intake conduit, a water drain conduit, a water outlet conduit, a TDS detection probe (1), a first water intake solenoid valve (2), a second water intake solenoid valve (3) and a post-filter cartridge (4).
  3. 3. The adapting water monitor according to claim 2, characterized in that the housing (5) is provided with a water inlet (6) corresponding to the water inlet pipe, a water outlet (7) corresponding to the water outlet pipe and a water outlet (8) corresponding to the water outlet pipe, respectively.

Description

Adaptive water monitor Technical Field The utility model belongs to the field of water purification, and particularly relates to an adaptive water monitor. Background With the pursuit of quality of life by the masses, the water quality is paid attention to, and the water purifying equipment with the reverse osmosis function is popular with the masses because the purified water prepared by the water purifying equipment is fresher, more sanitary and safer. The reverse osmosis technology adopted in the water purifier is a technology for realizing ultra-high precision filtration by utilizing an artificial semipermeable membrane, the aperture of the semipermeable membrane is extremely small and is only between 0.5 and 10nm, water cannot pass through under normal conditions, reverse osmosis can be realized only by pressurizing water on one side of the membrane, water with higher purity is obtained, wastewater can be formed by the water with concentration which cannot realize osmosis and is discharged, and the reverse osmosis water purifier needs to be plugged for use, so that power is provided for an internal booster pump. Therefore, the raw water filtered by the reverse osmosis technology can obtain purified water with TDS meeting the standard of direct drinking water. However, when the water purifying device is stopped for a long time and is kept still, the TDS of the first cup of pure water is higher when the water purifying device is restarted for use, so that the quality of the first cup of pure water is lower, and the water quality cannot meet the requirements of users. Based on the above, an adaptive water monitor of a matched water purifier is developed, adaptive water quality is obtained, and the problem of high TDS value of head cup water is solved. Disclosure of utility model The utility model aims to solve the technical problem of providing an adaptive water monitor so as to obtain adaptive water quality and solve the problem of high TDS value of head cup water. The technical scheme is that the adaptive water monitor comprises a water inlet pipeline communicated with a pure water pipeline of a water purifier, a drainage pipeline and a water outlet pipeline which are respectively communicated with the water inlet pipeline, wherein a TDS detection probe is arranged on the water inlet pipeline, a first water inlet electromagnetic valve is arranged on the water outlet pipeline, a second water inlet electromagnetic valve is arranged on the drainage pipeline, and a rear filter element is arranged on the water outlet pipeline and is communicated with the rear end of the first water inlet electromagnetic valve. Further, the adapting water monitor further comprises a shell for accommodating a water inlet pipeline, a water discharge pipeline, a water outlet pipeline, a TDS detection probe, a first water inlet electromagnetic valve, a second water inlet electromagnetic valve and a rear filter element. Further, the shell of the adapting water monitor is respectively provided with a water inlet corresponding to the water inlet pipeline, a water outlet corresponding to the water outlet pipeline and a water outlet corresponding to the water discharge pipeline. Further, the adaptive water monitor further comprises a controller, wherein the controller is electrically connected with the TDS detection probe, the first water inlet electromagnetic valve and the second water inlet electromagnetic valve, so that the start and stop of the first water inlet electromagnetic valve or the second water inlet electromagnetic valve can be regulated and controlled according to the detection feedback of the TDS detection probe. Compared with the prior art, the water quality monitoring device has the advantages that the water quality monitoring device is matched with the water purifier to detect whether the TDS of purified pure water meets the direct drinking water standard or not, and further the direct drinking water standard is selectively and directly referenced or discharged to obtain the adapted water quality, and particularly the problem of high TDS of head cup water can be effectively solved. Drawings FIG. 1 is a schematic view of the internal structure of an adaptive water monitor of the present utility model; FIG. 2 is a waterway diagram of an adaptive water monitor of the present utility model. Detailed Description The technical scheme of the utility model is further described in detail below with reference to the accompanying drawings. As shown in fig. 1, the adapting water monitor of the present utility model comprises a housing 5, a water inlet pipeline provided in the housing 5, a water outlet pipeline and a water discharge pipeline respectively communicated with the water inlet pipeline. A water inlet 6 is arranged on the shell 5 corresponding to the water inlet pipeline, and the water inlet pipeline is communicated with the pure water pipeline on the water purifier for the pure water to be introduced. A water outlet 7