CN211733949U - Salt-chlorine generator for full-automatic swimming pool - Google Patents

Abstract

The embodiment of the utility model discloses full-automatic swimming pool salt chlorine generator, include: the feeding system, the electrolysis system and the dosing system are connected in sequence; the feeding system conveys electrolyte into the electrolysis system, the electrolyte is electrolyzed inside the electrolysis system to generate sodium hypochlorite, the generated sodium hypochlorite enters the dosing system, and the dosing system adds the sodium hypochlorite into the swimming pool; the full-automatic control system is used for respectively controlling the operation of the dosing system, the feeding system and the electrolysis system. And simultaneously, the utility model has the characteristics of avoided swimming pool quality of water to use the potential safety hazard that sodium hypochlorite disinfection of disinfecting appears because of artificial control, realized the accurate control of swimming pool dosage.

Description

Salt-chlorine generator for full-automatic swimming pool

Technical Field

The embodiment of the utility model relates to a sterilizing and disinfecting device for a swimming pool, in particular to a full-automatic salt and chlorine generator for the swimming pool.

Background

According to the requirements of national standard GB37488-2019 public place health indexes and limit values, the total number of bacterial colonies, coliform bacteria and the like in the swimming pool water are in a qualified range when the oxidation-reduction potential is more than or equal to 650 mv. When the free residual chlorine is 0.3-1.0 mg/L, the probability of cross infection of the swimmer in water is reduced.

The swimming pool at present mainly meets the index of free residual chlorine by three aspects. One, chlorine-containing agents such as: trichloroisocyanuric acid, sodium dichloroisocyanurate, calcium hypochlorite, liquid chlorine, etc. Because the medicaments belong to high-risk chemical medicaments, certain risks exist in transportation, storage and use, and accidents happen in some places due to improper use of the chlorine-containing medicaments in the swimming pool. The salt chlorine machine adds salt to the whole pool water to change the water into dilute salt water with salt content about four per thousand, and the water in the electrolytic pool is circulated to generate sodium hypochlorite for sterilization and disinfection. The product has five problems, 1, the product is not seamlessly butted with swimming pool water treatment and is only a field chlorine generating machine, compared with the product using chlorine-containing medicaments, the product only reduces transportation and storage links, and has certain risks in use. 2. The prior products for controlling the water level of a salt storage barrel and a chlorine collection barrel of a full-automatic sodium hypochlorite generator mostly adopt floating ball probes, and the floating ball is easy to block due to salt crystallization, impurities and the like in use. 3. Because swimming pool water is the loop filter use, not all change every day, so it is very high to salt content requirement in the sodium hypochlorite, because too high salt content can be thrown at every day sodium hypochlorite and constantly accumulate in pond water, can cause pond water salt content too high, corrode cell body and swimming pool system, and the infant mistake is swallowed the too high pond water of salt content simultaneously and is influenced by great to the health. The most adoption flowmeter control demineralized water of current hypochlorite generator mixes into 3% dilute brine with saturated salt water, and because of the flowmeter receives the water pressure to influence great, each time interval water pressure of each place all has the unstable phenomenon of water pressure, and the unable stable flow of output of flowmeter causes dilute brine and can't keep at 3%, and the electrolysis is just incomplete when dilute brine salinity is too high, and the sodium hypochlorite salinity of output will be too high. 4. In actual use, the situations of tap water stop and softener resin regeneration cannot be avoided, no softened water is supplied to equipment, and certain potential safety hazard exists. 5. The hydrogen discharge system adopts a double exhaust pump to ensure smooth hydrogen discharge. There are situations where both pumps are bad, and there is a greater risk that hydrogen will accumulate in the chamber.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides a full-automatic swimming pool salt chlorine generator to solve among the prior art because the swimming pool disinfection degree of automation is low the great problem of the swimming pool water quality potential safety hazard that leads to.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

according to a first aspect of the embodiments of the present invention, there is provided a salt chlorine generator for a full-automatic swimming pool, comprising:

the feeding system, the electrolysis system and the dosing system are connected in sequence; the feeding system conveys electrolyte into the electrolysis system, the electrolyte is electrolyzed inside the electrolysis system to generate sodium hypochlorite, the generated sodium hypochlorite enters the dosing system, and the dosing system adds the sodium hypochlorite into the swimming pool; the full-automatic control system is used for respectively controlling the operation of the dosing system, the feeding system and the electrolysis system.

Further, still include swimming pool real-time supervision system, swimming pool real-time supervision system with full automatic control system connects, swimming pool real-time supervision system is used for detecting swimming pool water quality index.

Further, feeding system includes the transfer cask, salt storage bucket and blender, the blender respectively with the transfer cask with the salt storage bucket intercommunication, the transfer cask is sent softened water into the inside of blender, the salt storage bucket is sent saturated salt solution into the inside of blender, softened water and saturated salt solution are in the inside of blender mixes and forms the dilute brine of treating the electrolysis, the blender with electrolysis system connects, the dilute brine of treating the electrolysis is followed the inside entering of blender electrolysis system.

Further, the transfer cask is connected with the water softener, the inside demineralized water of water softener gets into the inside of transfer cask the transfer cask with be equipped with the demineralized water measuring pump between the blender the salt storage bucket with be equipped with the saturated brine measuring pump between the blender, the demineralized water measuring pump is followed the inside of transfer cask is absorb the demineralized water and is got into the blender, the saturated brine measuring pump is followed the inside absorption saturated brine of salt storage bucket gets into the blender.

Further, be equipped with first motorised valve between the transfer cask with the water softener, first motorised valve control the inside demineralized water of water softener gets into the inside of transfer cask.

Further, the dosing system comprises a chlorine collecting barrel, wherein the chlorine collecting barrel is connected with a dosing metering pump, and the dosing metering pump sucks sodium hypochlorite from the interior of the chlorine collecting barrel and adds the sodium hypochlorite to the swimming pool.

Further, the full-automatic control system is in communication connection with a first four-pin water level electrode sensing probe, the first four-pin water level electrode sensing probe is used for monitoring the water level of the salt storage barrel, the full-automatic control system is in communication connection with a second four-pin water level electrode sensing probe, and the second four-pin water level electrode sensing probe is used for monitoring the water level of the chlorine collection barrel.

Further, the electrolysis system comprises an electrolytic cell, the electrolytic cell is connected with the chlorine collecting barrel, and sodium hypochlorite generated in the electrolysis process enters the chlorine collecting barrel from the inside of the electrolytic cell for storage.

Further, the electrolytic cell is communicated with a hydrogen discharge system, hydrogen generated in the electrolysis process enters the hydrogen discharge system from the electrolytic cell, the hydrogen discharge system comprises an exhaust pump, and a pipeline at the exhaust end of the exhaust pump is provided with an air pressure sensor.

Further, the full-automatic control system comprises a PLC and a touch screen, and the PLC is connected with the touch screen.

The embodiment of the utility model provides a have following advantage:

1. the above technical scheme of the utility model, the swimming pool long-term disinfection of disinfecting of throwing is thrown automatically to the accurate swimming pool of throwing of swimming pool quality of water index to the full automatic control's of seamless butt joint field production sodium hypochlorite of swimming pool. Whether the circulating system is started or not is judged through the water flow switch, and the problem of dosing under the condition that the circulating system is not started is solved. The water quality of the swimming pool is monitored in real time by an oxidation-reduction potential and a free residual chlorine probe, and the production and the sodium hypochlorite addition of equipment are automatically controlled. The potential safety hazard of the water quality of the swimming pool using sodium hypochlorite for sterilization and disinfection due to artificial control is avoided, and the accurate control of the dosage of the swimming pool is realized.

2. The above technical scheme of the utility model, four needle water level electrode sensing probe control that adopt titanium alloy material store up salt bucket and chlorine collection bucket water level, and is corrosion-resistant, has the salt crystallization on the four needle water level electrode sensing probe and can switch on relative use equally more stably.

3. The above technical scheme of the utility model, through the transfer cask that goes out the water end at the demineralized water and increase the high 350mm of a diameter 110mm, guarantee through the first motorised valve automatic control of front end that the transfer cask is full of water all the time, draw the accurate saturated salt solution mixing of demineralized water and saturated salt solution measuring pump output by the demineralized water measuring pump accuracy and become accurate 3% dilute salt solution. The stability of the solubility of the produced sodium hypochlorite is ensured.

4. The above technical scheme of the utility model, go out the water end at the demineralized water and increased a water pressure sensor, the system will stop sodium hypochlorite production water pressure and produce by oneself again sometimes when the non-pressure, has ensured the safety of system operation process.

5. The above technical scheme of the utility model, installed baroceptor on the pipeline of the end of giving vent to anger of air pump, no matter be the air pump trouble, still pipeline blocks up, the interface drops etc. and leads to the amount of wind not enough, as long as baroceptor senses the tolerance not enough, and the system just stops production, has ensured the safety of system operation.

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. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic structural diagram of a salt and chlorine generator for a full-automatic swimming pool provided in embodiment 1 of the present invention;

in the figure: 1-a full-automatic control system; 2-swimming pool real-time monitoring system; 3-a water softener; 4-a salt storage barrel; 5-a first four-needle water level electrode sensing probe; 6-an exhaust pump; 7-a water pressure sensor; 8-a barometric sensor; 9-saturated saline water metering pump; 10-soft water electric valve; 11-a first electrically operated valve; 12-transit bucket; 13-demineralized water metering pump; 14-dosing pump; 15-chlorine collecting barrel; 16-a second four-pin water level electrode sensing probe; 17-a mixer; 18-an electrolytic cell; 19-an electrolytic power supply; 20-water flow switch.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

As shown in fig. 1, the present invention provides a salt and chlorine generator for a fully automatic swimming pool, comprising:

the feeding system, the electrolysis system and the dosing system are connected in sequence; the feeding system conveys electrolyte into the electrolysis system, the electrolyte is electrolyzed in the electrolysis system to generate sodium hypochlorite, the generated sodium hypochlorite enters the chemical dosing system, and the chemical dosing system adds the sodium hypochlorite into the swimming pool;

the full-automatic control system 1 is used for respectively controlling the operation of the dosing system, the feeding system and the electrolysis system; the full-automatic control system 1 and the electrolysis system are respectively connected with an electrolysis power supply 19.

The above technical scheme of the utility model, the swimming pool long-term disinfection of disinfecting of throwing is thrown automatically to the accurate swimming pool of throwing of swimming pool quality of water index to the full automatic control's of seamless butt joint field production sodium hypochlorite of swimming pool. Whether the circulating system is started or not is judged through the water flow switch 20, and the problem of dosing under the condition that the circulating system is not started is solved. The water quality of the swimming pool is monitored in real time by an oxidation-reduction potential and a free residual chlorine probe, and the production and the sodium hypochlorite addition of equipment are automatically controlled. The potential safety hazard of the water quality of the swimming pool using sodium hypochlorite for sterilization and disinfection due to artificial control is avoided, and the accurate control of the dosage of the swimming pool is realized.

As another preferred embodiment of the utility model, in order to realize monitoring swimming pool water quality index oxidation reduction potential, free residual chlorine, still include swimming pool real-time monitoring system 2, swimming pool real-time monitoring system 2 is connected with full automatic control system 1, and swimming pool real-time monitoring system 2 is used for detecting swimming pool water quality index, and swimming pool real-time monitoring system 2 includes oxidation reduction potential probe and free residual chlorine probe.

As another preferred embodiment of the present invention, in order to realize that 3% dilute brine is delivered to the electrolytic cell 18, the feeding system includes the transfer water bucket 12, the salt storage bucket 4 and the mixer 17, the mixer 17 is respectively communicated with the transfer water bucket 12 and the salt storage bucket 4, the transfer water bucket 12 sends softened water into the inside of the mixer 17, the salt storage bucket 4 sends saturated brine into the inside of the mixer 17, the softened water and the saturated brine are mixed in the inside of the mixer 17 to form the dilute brine to be electrolyzed, the mixer 17 is connected with the electrolysis system, and the dilute brine to be electrolyzed enters the electrolysis system from the inside of the mixer 17.

As another preferred embodiment of the present invention, in order to realize the generation of dilute brine to be electrolyzed in the mixer 17, the transfer water bucket 12 is connected to the water softener 3, softened water inside the water softener 3 enters the inside of the transfer water bucket 12, the softened water metering pump 13 is provided between the transfer water bucket 12 and the mixer 17, the saturated brine metering pump 13 is provided between the salt storage bucket 4 and the mixer 17, the softened water metering pump 13 sucks softened water from the inside of the transfer water bucket 12 to enter the mixer 17, and the saturated brine metering pump 9 sucks saturated brine from the inside of the salt storage bucket 4 to enter the mixer 17.

As another preferred embodiment of the present invention, in order to keep the softened water in the transit water bucket 12 always at the full water level, a first electric valve 11 is provided between the transit water bucket 12 and the water softener 3, and the first electric valve 11 controls the softened water inside the water softener 3 to enter the transit water bucket 12.

As another preferred embodiment of the present invention, in order to add sodium hypochlorite to the inside of the swimming pool, the chemical dosing system includes a chlorine collecting barrel 15, the chlorine collecting barrel 15 is connected to the chemical dosing pump 14, and the chemical dosing pump 14 sucks sodium hypochlorite from the inside of the chlorine collecting barrel 15 and adds the sodium hypochlorite to the swimming pool.

As another preferred embodiment of the utility model, in order to realize that the monitoring full automatic control system 1 to the water level of salt storage barrel 4 passes through bluetooth or wireless connection with first four needle water level electrode sensing probe 5.

As another preferred embodiment of the present invention, in order to realize the monitoring of the water level of the chlorine collecting tank 15, the fully automatic control system 1 is connected to the second four-pin water level electrode sensing probe 16 through bluetooth or wireless communication.

As another preferred embodiment of the present invention, in order to discharge the hydrogen generated in the electrolysis process to ensure the safety of the electrolysis process, the electrolysis tank 18 is communicated with the hydrogen discharge system, and the hydrogen generated in the electrolysis process enters the hydrogen discharge system.

As another preferred embodiment of the present invention, in order to store sodium hypochlorite generated in the electrolysis process, the electrolysis system comprises an electrolytic cell 18, the electrolytic cell 18 is connected to the chlorine collecting barrel 15, and the hypochlorous generated in the electrolysis process enters the chlorine collecting barrel 15 from the inside of the electrolytic cell 18 for storage.

As another preferred embodiment of the utility model, in order to further ensure the safety of the electrolysis process and avoid the potential safety hazard brought to the electrolysis process of the electrolysis bath 18 by the hydrogen generated in the electrolysis process, the hydrogen discharge system comprises an exhaust pump 6, and a pipeline at the exhaust end of the exhaust pump 6 is provided with an air pressure sensor 8.

As the utility model discloses a another preferred embodiment, in order to guarantee entire system's automatic safe operation, can realize simultaneously that the staff adjusts entire system's operating parameter as required, and full automatic control system 1 includes PLC and touch-sensitive screen, and PLC is connected with the touch-sensitive screen.

Principle of operation

The full-automatic control system 1 realizes remote control through a PLC, and a worker realizes adjustment of the operation parameters of the whole system through a touch screen;

the swimming pool real-time monitoring system 2 monitors the oxidation-reduction potential and free residual chlorine of the swimming pool water quality indexes, transmits the monitored data to the full-automatic control system 1, and the full-automatic control system 1 sends work instructions to all the systems;

when the values of the oxidation-reduction potential and the free residual chlorine are detected to be lower than the set values, meanwhile, the water flow switch 20 is used for judging that the circulating system of the swimming pool works normally and sodium hypochlorite exists in the chlorine collecting barrel 15, the dosing metering pump 14 sucks the sodium hypochlorite from the inside of the chlorine collecting barrel 15 into the circulating pipeline of the swimming pool, and the sodium hypochlorite and the circulating water in the pipeline are mixed and then enter the inside of the swimming pool until the oxidation-reduction potential and the free residual chlorine reach the set values or no sodium hypochlorite exists in the chlorine collecting barrel 15; when the water flow switch 20 judges that the circulating system of the swimming pool does not work normally, the chemical dosing can not be carried out, and when the chlorine collecting barrel 15 is internally provided with no sodium hypochlorite, the full-automatic control system 1 can control the automatic production of the sodium hypochlorite.

When the second four-pin water level electrode sensing probe 16 detects that the amount of sodium hypochlorite in the chlorine collecting barrel 15 is lower than the medium water level, the monitored data is transmitted to the full-automatic control system 1, the full-automatic control system 1 sends an instruction for starting to produce the sodium hypochlorite, at the moment, the first electric valve 11 is opened, softened water in the water softener 3 enters the transfer water barrel 12 and is always kept at the full water level, the softened water metering pump 13 sucks softened water from the transfer water barrel 12 and saturated saline water at the bottom of the salt storage barrel 4 by the saturated saline water metering pump 9, the softened water and the saturated saline water are simultaneously sent to the mixer 17 and then are fully mixed to form accurate 3% dilute saline water, and the mixed 3% dilute saline water enters the electrolytic cell 18 of the electrolytic.

Water pressure sensor 7 installs between 3 demineralized water exports of water softener and first motorised valve 11 for whether the monitoring inlet tube has water, with the safe operation of guaranteeing entire system, explain anhydrous when water pressure sensor 7 pressure is not enough, for the protection electrolysis system will stop the electrolysis, when first four needle water level electrode sensing probe 5 is less than the well water level, demineralized water is supplied in order to ensure to have the saturated salt solution of capacity in the salt storage bucket 4 to demineralized water motorised valve 10 opening to salt storage bucket 4. When the first four-pin water level electrode sensing probe 5 senses that the saturated saline water is lower than the low water level, the electrolysis system stops electrolysis. The setting of the above conditions will greatly improve the safety of the equipment operation. Only if the conditions are met, the dilute brine concentration is ensured to be accurate, and the dilute brine enters the electrolysis system to start the electrolysis reaction.

After 3% dilute brine enters the electrolytic bath 18, the electrolytic power supply 19 is started to carry out electrolytic reaction, sodium hypochlorite and hydrogen are generated through electrolysis, the sodium hypochlorite enters the chlorine collecting barrel 15, and the feeding system and the electrolytic system stop working until the second four-pin water level electrode sensing probe 16 senses a high water level; when the operating temperature of the electrolytic cell 18 reaches 42 ℃, the system stops operating to protect the electrolytic cell 18.

The hydrogen produced as a by-product after electrolysis is discharged into the outdoor atmosphere through the exhaust pump 6, and in order to ensure absolute safety, an air pressure sensor 8 is arranged on a pipeline at the exhaust end of the exhaust pump 6. When the air pressure in the air inlet pipe is insufficient, the produced hydrogen cannot be discharged into the outdoor atmosphere, and at the moment, the feeding system and the electrolysis system stop working and give a prompt to a user.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A salt chlorine generator for a full-automatic swimming pool, comprising:

the feeding system, the electrolysis system and the dosing system are connected in sequence; the feeding system conveys electrolyte into the electrolysis system, the electrolyte is electrolyzed inside the electrolysis system to generate sodium hypochlorite, the generated sodium hypochlorite enters the dosing system, and the dosing system adds the sodium hypochlorite into the swimming pool;

the automatic feeding and electrolyzing device is characterized by further comprising a full-automatic control system (1), wherein the full-automatic control system (1) respectively controls the operation of the feeding system, the feeding system and the electrolyzing system.

2. The fully automatic swimming pool salt chlorine generator of claim 1, wherein: still include swimming pool real-time supervision system (2), swimming pool real-time supervision system (2) with full automatic control system (1) is connected, swimming pool real-time supervision system (2) are used for detecting swimming pool water quality index.

3. The fully automatic swimming pool salt chlorine generator of claim 2, wherein: feeding system includes transfer cask (12), salt storage bucket (4) and blender (17), blender (17) respectively with transfer cask (12) with salt storage bucket (4) intercommunication, transfer cask (12) are sent into demineralized water the inside of blender (17), salt storage bucket (4) are sent into saturated brine the inside of blender (17), demineralized water with saturated brine is in the inside of blender (17) is mixed and is formed the dilute brine of treating the electrolysis, blender (17) with electrolysis headtotail, the dilute brine of treating the electrolysis is followed the inside of blender (17) is got into electrolysis system.

4. The fully automatic swimming pool salt chlorine generator of claim 3, wherein: transfer cask (12) are connected with water softener (3), the inside demineralized water of water softener (3) gets into the inside of transfer cask (12) with be equipped with demineralized water measuring pump (13) between blender (17) storage salt bucket (4) with be equipped with saturated salt solution measuring pump (9) between blender (17), demineralized water measuring pump (13) are followed the inside absorption demineralized water of transfer cask (12) gets into blender (17), saturated salt solution measuring pump (9) are followed the inside absorption saturated salt solution of storage salt bucket (4) gets into blender (17).

5. The fully automatic swimming pool salt chlorine generator of claim 4, wherein: the water softener comprises a transfer water barrel (12) and a first electric valve (11) arranged between water softeners (3), wherein the first electric valve (11) controls softened water inside the water softeners (3) to enter the transfer water barrel (12).

6. The fully automatic swimming pool salt chlorine generator of claim 5, wherein: the dosing system comprises a chlorine collecting barrel (15), wherein the chlorine collecting barrel (15) is connected with a dosing metering pump (14), and the dosing metering pump (14) sucks sodium hypochlorite from the interior of the chlorine collecting barrel (15) and adds the sodium hypochlorite to a swimming pool.

7. The fully automatic swimming pool salt chlorine generator of claim 6, wherein: full automatic control system (1) is connected with first four needle water level electrode sensing probe (5) communication, first four needle water level electrode sensing probe (5) are used for monitoring the water level of salt storage bucket (4), full automatic control system (1) is connected with second four needle water level electrode sensing probe (16) communication, second four needle water level electrode sensing probe (16) are used for monitoring the water level of chlorine collection bucket (15).

8. The fully automatic swimming pool salt chlorine generator of claim 7, wherein: the electrolytic system comprises an electrolytic cell (18), the electrolytic cell (18) is connected with the chlorine collecting barrel (15), and sodium hypochlorite generated in the electrolytic process enters the interior of the chlorine collecting barrel (15) from the interior of the electrolytic cell (18) for storage.

9. The fully automatic swimming pool salt chlorine generator of claim 8, wherein: the electrolytic cell (18) is communicated with a hydrogen discharge system, hydrogen generated in the electrolytic process enters the hydrogen discharge system from the electrolytic cell (18), the hydrogen discharge system comprises an exhaust pump (6), and a pipeline at the exhaust end of the exhaust pump (6) is provided with an air pressure sensor (8).

10. The fully automatic swimming pool salt chlorine generator of any one of claims 1-9, wherein: the full-automatic control system comprises a PLC and a touch screen, and the PLC is connected with the touch screen.

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