CN213780073U - Multi-parameter water quality detection system - Google Patents

Abstract

The utility model provides a multi-parameter water quality testing system, including the swimming pool, municipal water supply pipe and water quality testing appearance, and the circulating water pipeline who is linked together with the swimming pool, be equipped with circulating water pump and filtration sand jar on the circulating water pipeline, circulating water pipeline intercommunication has balanced water tank, the sampling cup, ozone generator, a heater, flocculating agent dosing pump, acid neutralizer dosing pump, alkaline neutralizer dosing pump, the chlorine-free disinfectant dosing pump, chlorine-containing disinfectant dosing pump, urea degradation agent dosing pump, balanced water tank is linked together with municipal water supply pipe, the sampling cup is parallelly connected with circulating water pump mutually, ozone generator, the heater all is parallelly connected with the circulating water pipeline mutually, be equipped with ozone sensor in the sampling cup, a weighing sensor, turbidity sensor, the PH sensor, the ORP sensor, chlorine residue sensor and urea sensor. The utility model discloses can automated inspection quality of water and the offend of medication.

Description

Multi-parameter water quality detection system

Technical Field

The utility model relates to a water quality testing field specifically is a multi-parameter water quality testing system.

Background

With the development of economy, the requirements of people on physical exercise are higher and higher. Swimming is increasingly popular as an all-round fitness method. The water quality of the swimming pool can directly affect the health of human body, and the unclean water of the swimming pool can cause harm to the swimmers. Sweat, urine, dirt of skin and the like generated by a swimmer in the swimming process and external pollutants are dissolved in pool water to pollute the pool water, the swimmer is easily infected with infectious dermatosis such as pharyngitis, epidemic hemorrhagic conjunctivitis, infectious molluscum and the like or viral gastroenteritis by the dirty pool water, and parameters such as ozone content, temperature, turbidity, PH, residual chlorine content, ORP, urea content and the like of the pool water are required to be detected in order to improve the sanitation of the swimming pool.

Current swimming pool water quality testing and water quality regulation all adopt manual operation's mode, and the staff uses different test paper and reagent to carry out the sample detection to the pond water promptly to put into corresponding liquid medicine and carry out water quality regulation in the pond water. The manual operation mode is not only complicated in operation steps, but also high in labor intensity of dosing, so that a measure for automatically detecting water quality and dosing is lacked.

SUMMERY OF THE UTILITY MODEL

For overcoming the defects of the prior art, the utility model provides a multi-parameter water quality detection system which can automatically detect water quality and feed medicine.

The utility model adopts the following technical proposal.

A multi-parameter water quality detection system comprises a swimming pool, a municipal water supply pipe, a water quality detector and a circulating water pipeline communicated with the swimming pool, wherein the circulating water pipeline is provided with a circulating water pump and a filtering sand jar, the circulating water pipeline is communicated with a balance water tank, a sampling cup, an ozone generator, a heater, a flocculating agent dosing pump, an acid neutralizing agent dosing pump, an alkaline neutralizing agent dosing pump, a chlorine-free disinfectant dosing pump, a chlorine-containing disinfectant dosing pump and a urea degrading agent dosing pump, the balance water tank is communicated with the municipal water supply pipe, the sampling cup is connected with the circulating water pump in parallel, the ozone generator and the heater are connected with the circulating water pipeline in parallel, the sampling cup is internally provided with an ozone sensor, a temperature sensor, a turbidity sensor, a pH sensor, an ORP sensor, a residual chlorine sensor and a urea sensor, and the circulating water pump, the ozone generator, the circulating water supply pipe and the water quality detector are connected with the swimming pool, The heater, the flocculating agent dosing pump, the acid neutralizer dosing pump, the alkaline neutralizer dosing pump, the chlorine-free disinfectant dosing pump, the chlorine-containing disinfectant dosing pump, the urea degradation agent dosing pump, the ozone sensor, the temperature sensor, the turbidity sensor, the pH sensor, the ORP sensor, the residual chlorine sensor and the urea sensor are all electrically connected with the water quality detector.

Further, the ozone generator is communicated with an ozone booster pump, the ozone booster pump is electrically connected with the water quality detector, and the ozone generator is communicated with the circulating water pipeline through the ozone booster pump.

Furthermore, a touch display screen is arranged on the water quality detector.

The utility model has the advantages that:

the utility model discloses an ozone sensor, a weighing sensor and a temperature sensor, the turbidity sensor, the PH sensor, the ORP sensor, the chlorine residue sensor, the urea sensor is respectively to the ozone content of pond water, a weighing sensor and a temperature sensor, the turbidity, PH, the chlorine residue content, ORP, the urea content detects, and the parameter feedback that will test to water quality testing appearance, water quality testing appearance is according to the parameter control circulating water pump that records, an ozone generator, a heater, the flocculating agent pump of dosing, the acid neutralizing agent pump of dosing, the alkaline neutralizing agent pump of dosing, do not contain chlorine disinfectant pump of dosing, the urea degradation agent pump of dosing correspondingly moves, make each item parameter of pond water keep at predetermined within range. The utility model discloses can automated inspection quality of water and the offend of medication.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present embodiment.

Description of reference numerals:

a swimming pool 11, a municipal water supply pipe 12, a water quality detector 13, a touch display screen 131,

a circulating water pipeline 2, a circulating water pump 2a, a filtering sand cylinder 2b, a balance water tank 2c, a sampling cup 2d, an ozone generator 2e, an ozone booster pump 2e1, a heater 2f, a flocculant dosing pump 2g, an acid neutralizer dosing pump 2h, an alkaline neutralizer dosing pump 2j, a chlorine-free disinfectant dosing pump 2k, a chlorine-containing disinfectant dosing pump 2m, a urea degradation agent dosing pump 2n,

ozone sensor 31, temperature sensor 32, turbidity sensor 33, PH sensor 34, ORP sensor 35, residual chlorine sensor 36, urea sensor 37.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for a better understanding of the present embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent actual product dimensions.

It will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The technical solution of the present invention will be further explained with reference to the accompanying drawings and examples.

As shown in the attached drawing, the multiparameter water quality detection system comprises a swimming pool 11, a municipal water supply pipe 12, a water quality detector 13 and a circulating water pipeline 2 communicated with the swimming pool 11, wherein a circulating water pump 2a and a filtering sand jar 2b are arranged on the circulating water pipeline 2, the circulating water pipeline 2 is communicated with a balance water tank 2c, a sampling cup 2d, an ozone generator 2e, a heater 2f, a flocculating agent dosing pump 2g, an acid neutralizer dosing pump 2h, an alkaline neutralizer dosing pump 2j, a chlorine-free disinfectant dosing pump 2k, a chlorine-containing disinfectant dosing pump 2m, a urea degradation agent dosing pump 2n, the balance water tank 2c is communicated with the municipal water supply pipe 12, the sampling cup 2d is connected with the circulating water pump 2a in parallel, the ozone generator 2e and the heater 2f are connected with the circulating water pipeline 2 in parallel, and an ozone sensor 31 and a temperature sensor 32 are arranged in the sampling cup 2d, The turbidity sensor 33, the pH sensor 34, the ORP sensor 35, the residual chlorine sensor 36 and the urea sensor 37, the circulating water pump 2a, the ozone generator 2e, the heater 2f, the flocculant dosing pump 2g, the acid neutralizer dosing pump 2h, the alkaline neutralizer dosing pump 2j, the chlorine-free disinfectant dosing pump 2k, the chlorine-containing disinfectant dosing pump 2m, the urea degradation agent dosing pump 2n, the ozone sensor 31, the temperature sensor 32, the turbidity sensor 33, the pH sensor 34, the ORP sensor 35, the residual chlorine sensor 36 and the urea sensor 37 are all electrically connected with the water quality detector 13.

In this embodiment, the water quality detector 13 includes a PLC controller, which is a programmable logic controller and is widely used in the electrical automation control industry, and the PLC controller can preset ranges of parameters of the pool water, and when parameters measured by the ozone sensor 31, the temperature sensor 32, the turbidity sensor 33, the PH sensor 34, the ORP sensor 35, the residual chlorine sensor 36, and the urea sensor 37 exceed the preset ranges, the PLC controller controls the circulating water pump 2a, the ozone generator 2e, the heater 2f, the flocculant dosing pump 2g, the acid neutralizer dosing pump 2h, the alkaline neutralizer dosing pump 2j, the chlorine-free disinfectant dosing pump 2k, the chlorine-containing disinfectant dosing pump 2m, and the urea degradation agent dosing pump 2n to operate correspondingly, so as to keep the parameters of the pool water within the preset ranges.

If the ozone content parameter of the pool water is lower than the preset range, the water quality detector 13 controls the circulating water pump 2a and the ozone generator to operate 2e, and ozone generated by the ozone generator 2e enters the swimming pool 11 through the circulating water pipeline 2, so that the ozone content of the pool water is improved.

If the temperature parameter of the pool water is lower than the preset range, the water quality detector 13 controls the circulating water pump 2a and the heater 2f to operate, and the pool water heated by the heater 2f enters the swimming pool 11 through the circulating water pipeline 2, so that the temperature of the pool water is increased.

It can be understood that the flocculant dosing pump 2g is connected to a flocculant storage tank (not shown in the figure), and if the turbidity parameter of the pool water is higher than the preset range, the water quality detector 13 controls the operation of the circulating water pump 2a and the flocculant dosing pump 2g, and the flocculant dosing pump 2g doses a flocculant (such as polyaluminium chloride precipitant) into the circulating water pipe 2 and enters the swimming pool 11 through the circulating water pipe 2, so as to reduce the turbidity of the pool water.

It can be understood that the acid neutralizer dosing pump 2h is connected to an acid neutralizer storage tank (not shown), and if the PH of the pond water is higher than a predetermined range, the water quality detector 13 controls the circulating water pump 2a and the acid neutralizer dosing pump 2h to operate, and the acid neutralizer dosing pump 2h doses the acid neutralizer (e.g., hydrochloric acid solution) into the circulating water pipe 2 and enters the swimming pool 11 through the circulating water pipe 2, so that the PH of the pond water is lowered.

It is understood that the alkaline neutralizer dosing pump 2j is connected to an alkaline neutralizer storage tank (not shown), and if the PH of the pond water is lower than a predetermined range, the water quality detector 13 controls the operation of the circulating water pump 2a and the alkaline neutralizer dosing pump 2j, and the alkaline neutralizer dosing pump 2j doses an alkaline neutralizer (such as a sodium hydroxide solution) into the circulating water pipe 2 and enters the swimming pond 11 through the circulating water pipe 2, so that the PH of the pond water is increased.

It can be understood that the chlorine-free disinfectant dosing pump 2k is connected to a chlorine-free disinfectant storage tank (not shown in the figure), and if the ORP parameter of the pool water is lower than the preset range, the water quality detector 13 controls the operation of the circulating water pump 2a and the chlorine-free disinfectant dosing pump 2k, and the chlorine-free disinfectant dosing pump 2k doses a chlorine-free disinfectant (such as hydrogen peroxide) into the circulating water pipe 2 and enters the swimming pool 11 through the circulating water pipe 2, so that the turbidity of the pool water is reduced.

It can be understood that the chlorine-containing disinfectant dosing pump 2m is connected to a chlorine-containing disinfectant storage tank (not shown in the figure), and if the residual chlorine content parameter of the pool water is below the preset range, the water quality detector 13 controls the circulating water pump 2a and the chlorine-containing disinfectant dosing pump 2m to operate, and the chlorine-containing disinfectant dosing pump 2m doses a chlorine-containing disinfectant (such as trichloroisocyanuric acid agent) into the circulating water pipe 2 and enters the swimming pool 11 through the circulating water pipe 2, so as to increase the PH of the pool water.

It can be understood that the urea degradation agent dosing pump 2n is connected to a urea degradation agent storage tank (not shown in the figure), if the urea content parameter of the pool water is higher than the preset range, the water quality detector 13 controls the operation of the circulating water pump 2a and the urea degradation agent dosing pump 2n, and the urea degradation agent dosing pump 2n doses the urea degradation agent into the circulating water pipe 2 and enters the swimming pool 11 through the circulating water pipe 2, so as to increase the PH of the pool water.

Preferably, the ozone generator 2e is communicated with an ozone booster pump 2e1, the ozone booster pump 2e1 is electrically connected with the water quality detector 13, and the ozone generator 2e is communicated with the circulating water pipeline 2 through an ozone booster pump 2e 1.

Preferably, the water quality detector 13 is provided with a touch display screen 131. The staff can predetermine the scope of each item parameter of pond water through catalyst display screen 131.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (3)

1. A multi-parameter water quality detection system comprises a swimming pool, a municipal water supply pipe, a water quality detector and a circulating water pipeline communicated with the swimming pool, and is characterized in that the circulating water pipeline is provided with a circulating water pump and a filtering sand jar, the circulating water pipeline is communicated with a balance water tank, a sampling cup, an ozone generator, a heater, a flocculating agent dosing pump, an acid neutralizer dosing pump, an alkaline neutralizer dosing pump, a chlorine-free disinfectant dosing pump, a chlorine-containing disinfectant dosing pump and a urea degradation agent dosing pump, the balance water tank is communicated with the municipal water supply pipe, the sampling cup is connected with the circulating water pump in parallel, the ozone generator and the heater are connected with the circulating water pipeline in parallel,

an ozone sensor, a temperature sensor, a turbidity sensor, a PH sensor, an ORP sensor, a residual chlorine sensor and a urea sensor are arranged in the sampling cup,

the circulating water pump, the ozone generator, the heater, the flocculating agent dosing pump, the acid neutralizing agent dosing pump, the alkaline neutralizing agent dosing pump, the chlorine-free disinfectant dosing pump, the chlorine-containing disinfectant dosing pump, the urea degrading agent dosing pump, the ozone sensor, the temperature sensor, the turbidity sensor, the pH sensor, the ORP sensor, the residual chlorine sensor and the urea sensor are all electrically connected with the water quality detector.

2. The multiparameter water quality detection system according to claim 1, wherein the ozone generator is communicated with an ozone booster pump, the ozone booster pump is electrically connected with the water quality detector, and the ozone generator is communicated with a circulating water pipeline through the ozone booster pump.

3. The multiparameter water quality detection system according to claim 1, wherein a touch display screen is arranged on the water quality detector.

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