CN218025544U - Hot spring pool circulating sterilizing system - Google Patents

Abstract

The embodiment of the utility model provides a thermal spring pond circulation system of killing, including circulating pipe, the water tank, water pump and oxygen generator alive, the bottom in thermal spring pond is connected to circulating pipe's entry end, the exit end is located the top in thermal spring pond, the water tank, water pump and oxygen generator alive set up on circulating pipe along the direction of entry end to exit end, the water level of thermal spring water is the same with the water level of thermal spring water in thermal spring pond in the water tank, the water pump is used for carrying the thermal spring water in the water tank to the exit end, oxygen generator alive is used for producing the active oxygen. The embodiment of the utility model provides an in, hot spring water of water pump in with the water tank is carried to exit end flow back to hot spring pond for hot spring water circulation flow between hot spring pond and live oxygen generator, consequently, can be through the live oxygen that the live oxygen generator produced, to hot spring water in the hot spring pond take the initiative, last, disinfect the disinfection cyclically, eliminate and kill the harmful bacterial colony that the hot spring water carried and the remaining harmful bacterial colony when the user soaks the hot spring, prevent user cross infection's in soaking the emergence.

Description

Hot spring pool circulating sterilizing system

Technical Field

The utility model relates to a water treatment technical field especially relates to a hot spring pond circulation system of killing.

Background

The hot spring water contains rich mineral elements, can relax muscles and joints, eliminate fatigue, expand blood vessels, promote blood circulation and accelerate metabolism of a human body, has good medical and health-care effects, and is more and more popular.

At present, hot spring water is generally not treated and is directly pumped into a hot water room for heating, then is directly conveyed into a hot spring pool, and is discharged from the hot spring pool after the hot spring water is used for one day.

However, by adopting the hot spring water treatment mode, on one hand, the hot spring water is directly heated and then is conveyed into the hot spring pool, and bacterial colonies existing in the hot spring water cannot be completely sterilized; on the other hand, the hot spring water is discharged from the hot spring pool after being used for one day, but a plurality of people are soaked in the same hot spring pool in one day, so that a large number of harmful bacterial colonies possibly remain in the hot spring water, and the possibility of cross infection exists.

Disclosure of Invention

The embodiment of the utility model provides a hot spring pond circulation system of killing to there is cross infection's problem when solving the user and soaking hot spring water.

The embodiment of the utility model discloses a thermal spring pool circulating sterilizing system, which comprises a circulating water pipe, a water tank, a water pump and an active oxygen generator;

the inlet end of the circulating water pipe is connected with the bottom of the thermal spring pool, the outlet end of the circulating water pipe is positioned above the thermal spring pool, and the water tank, the water pump and the active oxygen generator are arranged on the circulating water pipe along the direction from the inlet end to the outlet end; the water level of spring water in the water tank is the same as that of spring water in the spring pool, the water pump is used for conveying the spring water in the water tank to the outlet end, and the active oxygen generator is used for generating active oxygen;

and controlling the water pump and the active oxygen generator to operate based on the water level in the water tank so as to enable hot spring water to circularly flow between the hot spring pool and the active oxygen generator, and circularly killing the hot spring water in the hot spring pool by active oxygen generated by the active oxygen generator.

Optionally, the circulating water pipes comprise a first circulating water pipe, a second circulating water pipe and a third circulating water pipe;

one end of the first circulating water pipe is connected with the bottom of the thermal spring pool, and the other end of the first circulating water pipe is connected with the water tank; one end of the second circulating water pipe is connected with a water pump positioned in the water tank, and the other end of the second circulating water pipe is connected with the live oxygen generator; one end of the third circulating water pipe is connected with the live oxygen generator, and the other end of the third circulating water pipe is positioned above the thermal spring pool.

Optionally, the water tank further comprises a first water level detector and a second water level detector, the first water level detector and the second water level detector are arranged in the water tank, and the position of the first water level detector is higher than that of the second water level detector;

the first water level detector is used for controlling the water pump and the active oxygen generator to operate when hot spring water is detected, so that the hot spring water circularly flows between the hot spring pool and the active oxygen generator, and the hot spring water in the hot spring pool is circularly sterilized by the active oxygen generated by the active oxygen generator;

and the second water level detector is used for controlling the water pump and the active oxygen generator to stop running when hot spring water is not detected.

Optionally, a drain valve is further arranged on the circulating water pipe, the drain valve is lower than the bottom of the thermal spring pool, and the drain valve is used for draining the thermal spring water in the thermal spring pool.

Optionally, the second water level detector is located above the bottom of the thermal spring pool by a preset distance.

Optionally, the active oxygen generator generates active oxygen by electrolyzing water, and the active oxygen generated by the active oxygen generator is mixed in hot spring water passing through the active oxygen generator so as to circularly sterilize the hot spring water in the hot spring pool by the active oxygen.

Optionally, the live oxygen generator is located on the outlet end side.

Optionally, the water heater further comprises a filter, wherein the filter is arranged on the circulating water pipe and is positioned between the water pump and the active oxygen generator, and the filter is used for filtering hot spring water passing through the circulating water pipe.

Optionally, the active oxygen generator is an active oxygen generator working in a working environment of 12 volts, and the water pump is a water pump working in a working environment of 12 volts.

Optionally, the circulating water pipe is a rigid polyvinyl chloride pipe.

The embodiment of the utility model provides a include following advantage: in the process of using the hot spring pool, the hot spring water in the water tank is conveyed to the outlet end of the circulating water pipe through the water pump and flows back to the hot spring pool, so that the hot spring water circularly flows between the hot spring pool and the active oxygen generator, active, continuous and cyclic sterilization and disinfection can be performed on the hot spring water in the hot spring pool by active oxygen generated by the active oxygen generator on the premise of not influencing water quality, harmful bacterial colonies carried by the hot spring water and residual harmful bacterial colonies when a user soaks the hot spring are eliminated, and cross infection of the user in the soaking process is prevented.

In addition, the operation of the water pump and the active oxygen generator is controlled based on the water level in the water tank, the water pump and the active oxygen generator can be matched with a water discharge system of the thermal spring pool, the operation of the water pump and the active oxygen generator is automatically controlled according to the water level of the thermal spring water in the thermal spring pool, the energy is saved, the efficiency is high, and the manpower resource is saved.

Drawings

Fig. 1 is a schematic structural diagram of a thermal spring pool circulating sterilizing system provided in an embodiment of the present invention.

Reference numerals:

100-spa pool, 200-water tank, 300-water pump, 400-live oxygen generator, 510-inlet end of circulating water pipe, 520-outlet end of circulating water pipe, 530-first circulating water pipe, 540-second circulating water pipe, 550-third circulating water pipe, 610-first water level detector, 620-second water level detector, 700-filter, 800-drain valve and 900-drain well.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the following detailed description.

The hot spring water contains rich mineral elements, can relax muscles and joints, eliminate fatigue, expand blood vessels, promote blood circulation and accelerate metabolism of a human body, and has good medical and health-care effects, so that the hot spring water is more and more popular. At present, hot spring water is not treated, is directly pumped into a hot water room for heating, is directly conveyed into a hot spring pool, and is discharged from the hot spring pool after the hot spring water is used for one day.

However, the thermal spring water treatment method has the following problems: 1) Directly heating hot spring water and conveying the hot spring water into a hot spring pool, wherein bacterial colonies in the hot spring water cannot be completely killed; 2) The hot spring water is discharged from the hot spring pool after being used for one day, but a plurality of people are soaked in the same hot spring pool in one day, so that a large amount of harmful bacterial colonies possibly remain in the hot spring water, and the possibility of cross infection exists; 3) After the hot spring water is used for one day, the hot spring water is directly and completely discharged from the hot spring pool, so that the utilization rate of the hot spring water is low, and the waste of resources is caused.

In addition, a small number of operators with high quality requirements may provide copper-silver ion equipment for physical sterilization, and the copper-silver ion equipment is high in price, passive in use mode and uncontrollable in effect. Some pool operators can use traditional disinfectants, antibiotics and other chemical medicines for sterilization, the use amount is difficult to standardize, the effect is unsatisfactory, and the defects of residual pollution, double infection, influence on water quality, incapability of continuous disinfection and the like exist.

Based on this, the embodiment of the utility model discloses a thermal spring pond circulation system of killing to solve above-mentioned problem that exists.

Referring to fig. 1, a schematic structural diagram of a thermal spring pool circulating disinfection system provided in an embodiment of the present invention is shown. The embodiment of the utility model provides an embodiment's hot spring pond circulation system of killing includes circulating pipe, water tank 200, water pump 300 and ozone generator 400. The inlet end 510 of the circulating water pipe is connected with the bottom of the thermal spring pool 100, the outlet end 520 of the circulating water pipe is positioned above the thermal spring pool 100, and the water tank 200, the water pump 300 and the live oxygen generator 400 are arranged on the circulating water pipe along the direction from the inlet end 510 to the outlet end 520.

Wherein, hot spring can be for the hot spring who follows the nature exploitation, also can be for adopting the mineralize mineralization jar to carry out the mineralize mineralization to the running water, obtains the hot spring that contains abundant mineral substance, the embodiment of the utility model provides a do not put a limit on hot spring.

When the water pump 300 is not in operation, the water tank 200 is communicated with the thermal spring pool 100 through a circulating water pipe, and the water level of the thermal spring water in the water tank 200 is the same as the water level of the thermal spring water in the thermal spring pool 100. When the water pump 300 is operated, the water pump 300 can convey the hot spring water in the water tank 200 to the outlet end 520 of the circulating water pipe through the live oxygen generator 400 along the circulating water pipe, and then the hot spring water flows back to the hot spring pool 100 from the outlet end 520, so that the hot spring water can circulate between the hot spring pool 100 and the live oxygen generator 400.

In the process of circulating the hot spring water between the hot spring pool 100 and the active oxygen generator 400, the active oxygen generator 400 can continuously generate active oxygen to be mixed in the hot spring water, harmful bacterial colonies in the hot spring water are killed through the active oxygen, and then the hot spring water in the hot spring pool 100 is circularly killed.

The active oxygen is ozone (O) commonly known by us ₃ ) The product is a strong oxidant, has good sterilization and disinfection effects, can kill various microorganisms such as bacterial propagules, spores, viruses, fungi, protozoan spores and the like, can destroy botulinum and toxins, rickettsia and the like, and also has strong functions of removing peculiar smells such as mildew, fishy smell, odor and the like. Meanwhile, in the process of sterilizing and oxidizing the active oxygen, redundant oxygen atoms are combined into molecular oxygen after 30min, no residual substance exists, and the problem of sterilizing is solvedThe agent can cause secondary pollution during disinfection, and simultaneously, the secondary cleaning after the disinfection is finished is saved.

Compared with the mode of physical sterilization by adopting copper-silver ion equipment and the mode of sterilization by using traditional chemical medicines such as disinfectants, antibiotics and the like, the embodiment of the utility model adopts the mode of sterilizing hot spring water by using active oxygen, so that the cost is low; no chemical substance is added into the water in the treatment process, so that the water quality of the thermal spring water is not influenced; easy to decompose into oxygen, and no secondary pollution is caused; the strong oxidizing property of the active oxygen determines that the active oxygen has strong disinfection effect; is easy to dissolve in water, and improves the disinfection effect of the active oxygen in the water; the gas is in a free state.

The hot spring water in the hot spring pool 100 is circularly killed by the hot spring pool circulating killing system, so that the killing rate of the total number of bacterial colonies in the hot spring water can reach ninety percent, and the possibility of cross infection is greatly reduced.

The embodiment of the utility model provides an in hot spring pond circulation system of killing is independent of the drainage system of former hot spring pond 100, the operation of water pump 300 and living oxygen generator 400 is based on the water level of hot spring water in water tank 200 and controls, control based on the water level of hot spring water in hot spring pond 100 promptly, consequently can be through this control to water pump 300 and living oxygen generator 400 and the drainage system adaptation of hot spring pond 100, according to the water level of hot spring water in hot spring pond 100, automatic control water pump 300 and living oxygen generator 400 operation.

As an example, the thermal spring pool 100 generally has a separate set of water discharge systems, and the thermal spring water heated in the hot water room is put into the thermal spring pool 100 before the thermal spring pool 100 is used; in the using process, in order to maintain the temperature of the hot spring water in the hot spring pool 100, part of the hot spring water with the reduced temperature is discharged from the hot spring pool 100 at intervals, and meanwhile, the hot spring water with the same amount of heated hot water room is input into the hot spring pool 100; after the thermal spring pool 100 is used, the thermal spring water is discharged from the thermal spring pool 100. The embodiment of the utility model provides an embodiment of thermal spring pond circulation system of killing can with this drainage system adaptation, after thermal spring pond 100 adds the thermal spring water, the water level of thermal spring water maintains at certain high scope, can control water pump 300 and activity oxygen generator 400 work this moment, after the thermal spring water is discharged from thermal spring pond 100, the water level of thermal spring water is less than this high scope, then control water pump 300 and activity oxygen generator 400 stop work.

The embodiment of the utility model provides an in hot spring pond circulation system of killing can be equipped with corresponding power and the equipment of capacity alone according to the hot spring pond 100 demand, if oxygen generator 400 can carry out the power setting according to the conventional water storage capacity in pond, keep full pond circulation of disinfecting to accomplish about an hour to stabilize the rate of disinfecting in the design standard within range. The applicability is wide, the single thermal spring pool circulating sterilizing system corresponds to a single thermal spring pool, and the management and the maintenance are very convenient. The disassembly and the assembly do not influence the drainage of the original thermal spring pool, and the influence on the operation activity is small.

It should be noted that, the thermal spring pool circulating sterilizing system in the embodiment of the present invention can be applied to other pools, such as swimming pools, cultivation pools, etc., besides being applied to the thermal spring pool 100 to sterilize thermal spring water, and the embodiment of the present invention is not limited thereto.

In the embodiment of the utility model, in the in-process that thermal spring pond 100 used, carry the thermal spring water in the water tank 200 to circulating water pipe's exit end 520 through water pump 300 and flow back to thermal spring pond 100, make the thermal spring water circulate and flow between thermal spring pond 100 and activity oxygen generator 400, therefore, can pass through the active oxygen that activity oxygen generator 400 produced, under the prerequisite that does not influence quality of water, to thermal spring water in thermal spring pond 100 take the initiative, last, disinfect the disinfection cyclically, eliminate the harmful bacterial colony that the thermal spring water carried and remaining harmful bacterial colony when the user soaks the thermal spring, prevent user's cross infection's in the soaking process emergence.

The operation of the water pump 300 and the active oxygen generator 400 is based on the water level control in the water tank 200, and can be adapted to the water discharge system of the thermal spring pool 100, and the operation of the water pump 300 and the active oxygen generator 400 is automatically controlled according to the water level of the thermal spring water in the thermal spring pool 100, so that the energy conservation and the high efficiency are realized, and the human resources are saved.

The water pump 300 pressurizes the hot spring water of the circulation pipe in the process of delivering the hot spring water of the water tank 200 to the outlet end 520 of the circulation pipe, which is helpful for the fusion of the hot spring water and the active oxygen, and improves the sterilization effect of the active oxygen.

In an embodiment of the present invention, the circulation water pipe includes a first circulation water pipe 530, a second circulation water pipe 540 and a third circulation water pipe 550, one end (inlet end 510) of the first circulation water pipe 530 is connected to the bottom of the thermal spring pool 100, the other end is connected to the water tank 200, one end of the second circulation water pipe 540 is connected to the water pump 300 located in the water tank 200, the other end is connected to the active oxygen generator 400, one end of the third circulation water pipe 550 is connected to the active oxygen generator 400, and the other end (outlet end 520) is located above the thermal spring pool 100.

Specifically, when the water pump 300 is not in operation, the water tank 200 is communicated with the thermal spring bath 100 through the first circulation water pipe 530, so that the level of the spring water in the water tank 200 is identical to the level of the spring water in the thermal spring bath 100. When the water pump 300 works, the water pump 300 conveys hot spring water in the water tank 200 to the active oxygen generator 400 through the second circulating water pipe 540, the active oxygen generator 400 generates active oxygen to kill the hot spring water passing through the active oxygen generator 400, and then the hot spring water after being killed by the active oxygen flows into the hot spring pool 100 through the other end of the third circulating water pipe 550, so that the hot spring water in the hot spring pool 100 is circularly killed.

In an embodiment of the present invention, the thermal spring pool circulation killing system further includes a water level detector, the water level detector is used for controlling the operation of the water pump and the active oxygen generator based on the water level in the water tank, so that the thermal spring water circularly flows between the thermal spring pool and the active oxygen generator, and the active oxygen generated by the active oxygen generator circularly kills the thermal spring water in the thermal spring pool.

The water level detectors include a first water level detector 610 and a second water level detector 620, the first water level detector 610 and the second water level detector 620 are provided in the water tank 200, and the first water level detector 610 is positioned higher than the second water level detector 620.

Specifically, when the level of the thermal spring water in the water tank 200 is higher than the first water level detector 610, it indicates that the thermal spring pool 100 is already in use, and therefore, after the first water level detector 610 detects the thermal spring water, the water pump 300 and the active oxygen generator 400 are controlled to operate, so that the thermal spring water circulates between the thermal spring pool 100 and the active oxygen generator 400, and the thermal spring water in the thermal spring pool 100 is recycled and killed by the active oxygen generated by the active oxygen generator 400.

Since the water level in the water tank 200 is immediately lowered by a portion after the operation of the water pump 300 and the live oxygen generator 400, the water pump 300 and the live oxygen generator 400 are not controlled to stop when the water level of the hot spring water in the water tank 200 is lower than the first water level detector 610, so as to prevent the frequent start and stop of the operation of the water pump 300 and the live oxygen generator 400.

And when the water level of the thermal spring water in the water tank 200 is lower than the second water level detector 620, it indicates that the thermal spring water in the thermal spring pool 100 has been discharged and the thermal spring pool 100 has been in a state of being stopped, so that the water pump 300 and the live oxygen generator 400 are controlled to stop operating after the second water level detector 620 does not detect the thermal spring water.

The embodiment of the utility model provides an in, the user state in hot spring pond 100 of water level representation of hot spring water in water tank 200, consequently can be through the operation of the water level automatic control water pump 300 of hot spring water and the oxygen generator 400 in water tank 200, when first water level detector 610 detects hot spring water, control water pump 300 and the operation of oxygen generator 400, in order to circulate the hot spring water in hot spring pond 100 and kill, when second water level detector 620 does not detect hot spring water, control water pump 300 and oxygen generator 400 stall, energy-conservation and high efficiency, the manpower resources are saved.

In an embodiment of the present invention, the water circulating pipe further has a water discharging valve 800, the water discharging valve 800 is lower than the bottom of the thermal spring pool 100, and the water discharging valve 800 is used for discharging the thermal spring water in the thermal spring pool 100.

Specifically, the thermal spring pool circulating killing system further comprises a water drainage well 900, the water tank 200, the water pump 300, the water drainage valve 800, at least a part of the first circulating water pipe 530 and at least a part of the second circulating water pipe 540 are positioned in the water drainage well 900, and the water drainage valve 800 is arranged on the first circulating water pipe 530 and is positioned at the lowest part of the water drainage well 900 and used for discharging the thermal spring water in the thermal spring pool 100.

In an embodiment of the present invention, the second water level detector 620 is located above the bottom of the thermal spring bath 100 by a predetermined distance.

At present, hot spring water in a hot spring pool needs to be heated from a water burning room in a remote place and then is conveyed to the hot spring pool, after the hot spring pool is used in the day, a large number of harmful bacterial colonies can be remained in the hot spring water in the hot spring pool, and therefore the hot spring water in the hot spring pool can be completely discharged, so that new hot spring water can be conveyed in the next day, but the utilization rate of the hot spring water is low, and resources are wasted.

In the embodiment of the present invention, since the thermal spring water circulating system can circulate and kill the thermal spring water in the thermal spring pool 100, the thermal spring water in the thermal spring pool 100 can be used for many times, so that the thermal spring water in the thermal spring pool 100 is not required to be completely discharged. Therefore, when the second water level detector 620 does not detect the hot spring water, the drain valve 800 is closed through the drain system, and the remaining hot spring water in the hot spring pool 100 is reserved for the next day, so that the utilization rate of the hot spring water is improved, and the waste of resources is avoided.

The preset distance may be set according to the usage of the thermal spring pool 100, for example, the preset distance is calculated according to the volume of the thermal spring pool 100, the temperature of the thermal spring water output from the water boiling room, the temperature of the thermal spring water in the thermal spring pool 100 after being cooled overnight, and the temperature of the thermal spring water in the thermal spring pool 100 during usage, so as to obtain the preset distance from the position of the second water level detector 620 to the bottom of the thermal spring pool 100.

It should be noted that, the hot spring water in the hot spring pool 100 is cooled down after a certain period of time, for example, after being left overnight, and a hot spring water heating device cannot be installed near the hot spring pool 100 (the voltage used by the heating device is too high and does not meet the national regulation that the voltage used for the hot spring pool 0 region is 12 volts or less), and the installation of the heating device in a remote area is expensive and not suitable. Therefore, a certain space needs to be reserved in the thermal spring pool 100, so that the thermal spring water heated in the water heating room can be conveniently conveyed into the thermal spring pool 100, the temperature of the thermal spring water in the thermal spring pool 100 is increased, and only part of the thermal spring water in the thermal spring pool 100 can be reserved.

The embodiment of the utility model provides an in, second water level detector 620 is when not detecting thermal spring water, closes drain valve 800, can remain the partial thermal spring water in thermal spring pond 100, improves the utilization ratio of thermal spring water, avoids the waste of resource.

In an embodiment of the present invention, the active oxygen generator 400 generates active oxygen by electrolyzing water, and the active oxygen generated by the active oxygen generator 400 is mixed in hot spring water passing through the active oxygen generator 400, so as to circularly sterilize the hot spring water in the hot spring pool 100 by the active oxygen.

There are three main ways of generating ozone (active oxygen) in the prior art: high-pressure discharge type, ultraviolet irradiation type, low-pressure electrolysis type; wherein, (1) high-voltage discharge formula: the ozone generator uses high voltage current with a certain frequency to produce a high voltage corona electric field, so that oxygen molecules in or around the electric field generate electrochemical reaction, thereby producing ozone. The ozone generator has the advantages of large output, mature technology, stable performance, long service life and wide application. As the name implies, high voltage discharges, such high voltages are not suitable for the safety regulations of voltages of 12 volts or less, required by thermal spring pools. (2) ultraviolet irradiation formula: the ozone generator uses ultraviolet rays with specific wavelength to irradiate oxygen molecules so as to decompose the oxygen molecules to generate ozone, has small application range, low yield and short service life, is not enough to effectively kill hot spring water, and ultraviolet disinfection equipment works at a high voltage of 220V and does not meet the national standard of safe electricity utilization. (3) low-pressure electrolysis: the low-voltage ozone generation by the electrolysis method takes pure water as a raw material, takes a proton exchange membrane as a diaphragm, leads the water to lose electrons and be oxidized into ozone on a special anode interface under the action of a low-voltage branch electric field, does not need any auxiliary material and additive, leads the concentration of the generated ozone to be as high as 20 percent, leads the generated ozone to be accompanied with oxygen (O3 + O2), and has no secondary pollution.

Therefore, the embodiment of the present invention adopts the low-pressure electrolysis to generate the active oxygen, and the performance and characteristics of the low-pressure electrolysis active oxygen generator 400 are as follows: 1) The generated ozone has good purity and high concentration; the concentration weight ratio is much higher than that of a high-voltage corona method; the lowest concentration of the low-pressure production method is more than 18 percent and can reach 20 percent at most; on the contrary, the highest concentration of the high-voltage corona method is 3 percent. The low pressure method is 6 times more than the high pressure method. 2) The ozone gas produced by the low pressure method does not contain nitrogen oxide (Nox) and no carcinogenic substance. 3) The low-voltage method has the electrolytic voltage of only 3-5V, and has no power danger in the production and application processes. Electromagnetic waves and noise can not be generated, and interference can not be brought to other equipment when the electromagnetic wave and noise are used together with other precise instruments and meters. 4) The low-pressure method adopts pure water as the ozone production source, does not need an oxygen source, other air pretreatment equipment and matched instruments during working, and has convenient operation, safety and reliability. 5) The electrode has low loss, can continuously work, has super long service life, and can continuously start up for 24 hours for one year. The component has super long service life which is several times of the ozone generation amount of a corona method, and the service life of the membrane electrode is more than 10000 hours. 6) The device is not affected by working environment and temperature when working, has the humidity resistance up to 90 percent, and is particularly suitable for a water making workshop with humid environment. 7) The pure water is cooled in a self-circulation mode, and high-temperature accident potential caused by continuous operation of equipment is avoided. 8) The device has high concentration of the generated ozone, the generated ozone is completely mixed with the ozone with the same value as that of the ozone in water, and the application effect is good.

In the embodiment of the present invention, the active oxygen generator 400 generates active oxygen by using a low-voltage electrolysis method, so that the active oxygen generator 400 has a small size and can be easily installed beside the thermal spring pool 100.

The live oxygen generator 400 adopts low voltage electrolysis to electrolyze the aquatic product, the sterilization effect is 600-1000 times of that of chlorine, the life is longer compared with that of a core element sterilized by ultraviolet rays, the power consumption is less, the cleanliness of pool water is improved, and no sterilization by-product exists.

In an embodiment of the present invention, the active oxygen generator 400 is located the exit end 520 side, that is, the active oxygen generator 400 is close to the exit end 520 side of the circulating water pipe, when the hot spring water passes through the active oxygen generator 400, the active oxygen generator 400 can generate active oxygen to kill the hot spring water, the treated hot spring water contains active oxygen and flows into the hot spring pool 100 together, the active oxygen contained in the hot spring water can also kill the hot spring water in the hot spring pool 100, and the active oxygen can be dispersed and decomposed in a short time in the hot spring water in the hot spring pool 100, and the whole process is in the safe controllable range.

In an embodiment of the present invention, the thermal spring pool circulating sterilizing system further includes a filter 700, the filter 700 is disposed on the circulating water pipe and located between the water pump 300 and the oxygen generator 400, for filtering the thermal spring water passing through the circulating water pipe, filtering the impurities in the thermal spring water simply, and discharging the filtered substances conveniently by backwashing.

In an embodiment of the present invention, the active oxygen generator 400 generates active oxygen by using a low voltage electrolysis method, so that the active oxygen generator 400 can work under a 12 v voltage working environment, and can generate active oxygen enough for the thermal spring water to be recycled and killed, and the water pump 300 is also the brushless water pump 300 working under the 12 v voltage working environment, and is the safe extra-low voltage water pump 300. In the actual use process, a 12-volt voltage reduction module can be adopted in a power distribution room for reducing voltage, and then the power is transmitted to the thermal spring pool for circularly killing the electric equipment in the system.

The embodiment of the utility model provides an in, the method of 12 volt low-voltage electrolysis water is used to living oxygen generator 400, and no electromagnetic wave, noiselessness does not produce nitrogen oxide, uses DC 12 volt brushless water pump 300 and 12 volt control circuit in the cooperation, has compromise with electrical safety and work efficiency, accords with the state to hot spring pond 0 district power consumption voltage at 12 volts or following regulation.

In an example of the present invention, the water pump 300 may be formed by connecting two water pumps in parallel to increase the pressure of the spring water in the second circulation pipe 540, so as to transfer the spring water from the water tank 200 to the outlet end 520 of the circulation pipe. Meanwhile, the increase of the pressure of the spring water in the second circulating water pipe 540 is beneficial to the fusion of the spring water and the active oxygen, and the sterilization effect of the active oxygen is improved.

In an embodiment of the present invention, the circulating water pipe is a rigid Polyvinyl Chloride (UPVC) pipe, which is light and has excellent weather resistance, and can not be decomposed by bacteria and fungi, and has excellent acid and alkali resistance. It can also be joined with CPVC (chlorinated polyvinyl chloride) pipe mastic. As an example, the main pipeline can be a 3.2 cm water pipe, and the designed water pipe pressure PN1.25MPa.

In an example of the present invention, the thermal spring pool circulating sterilizing system further includes a control circuit, a real-time voltage monitor, a real-time water pressure monitor and a real-time water temperature monitor. Controlling the electric equipment in the thermal spring pool circulating sterilizing system through a control circuit; the voltage real-time monitor is used for detecting the voltage of the circuit in the thermal spring pool circulating killing system, so that the electricity utilization safety is ensured; detecting the water temperature of the thermal spring water in the thermal spring pool through a real-time water temperature monitor so as to control the water temperature of the thermal spring water in the thermal spring pool; and the water pressure in the circulating pipeline is detected through a water pressure real-time monitor, so that the circulating pipeline and the water pump are monitored.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A hot spring pool circulating killing system is characterized by comprising a circulating water pipe, a water tank, a water pump and a live oxygen generator;

the inlet end of the circulating water pipe is connected with the bottom of the thermal spring pool, the outlet end of the circulating water pipe is positioned above the thermal spring pool, and the water tank, the water pump and the active oxygen generator are arranged on the circulating water pipe along the direction from the inlet end to the outlet end; the water level of the spring water in the water tank is the same as that of the spring water in the spring pool, the water pump is used for conveying the spring water in the water tank to the outlet end, and the active oxygen generator is used for generating active oxygen.

2. The system of claim 1, wherein the circulating water pipes comprise a first circulating water pipe, a second circulating water pipe and a third circulating water pipe;

one end of the first circulating water pipe is connected with the bottom of the thermal spring pool, and the other end of the first circulating water pipe is connected with the water tank; one end of the second circulating water pipe is connected with a water pump positioned in the water tank, and the other end of the second circulating water pipe is connected with the live oxygen generator; one end of the third circulating water pipe is connected with the live oxygen generator, and the other end of the third circulating water pipe is positioned above the thermal spring pool.

3. The system according to any one of claims 1-2, further comprising a first water level detector and a second water level detector, said first water level detector and said second water level detector being disposed within said water tank, said first water level detector being positioned higher than said second water level detector.

4. The system according to claim 3, characterized in that the circulating water pipe is further provided with a drain valve, the drain valve is lower than the bottom of the thermal spring pool, and the drain valve is used for draining the thermal spring water in the thermal spring pool.

5. The system of claim 4, wherein the second water level detector is positioned above a bottom of the spa pool by a predetermined distance.

6. The system of claim 1, wherein the live oxygen generator is located on the outlet end side.

7. The system of claim 1, further comprising a filter disposed on the circulating water line between the water pump and the live oxygen generator for filtering hot spring water passing through the circulating water line.

8. The system of claim 1, wherein the live oxygen generator is a live oxygen generator operating in a 12 volt operating environment and the water pump is a water pump operating in a 12 volt operating environment.

9. The system of claim 1, wherein the circulating water pipe is a rigid polyvinyl chloride pipe.

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