Laswim
Sand Filter, Pool Pump, Pool Underwater Light, Salt Chlorinator, Heat Pump
- Founded
- 1989
- Headquarters
- Name: Sorcha Email:laswimpoolwater@gmail.com Tel: +86 18022011329 WhatsApp: +86 18022011329 Address:No. 16 Jianye Road, Shenghui South Industrial Zone, Nantou Town, Zhongshan City, Guangdong Province, China
- Factory Area
- 90,000 m²
- Employees
- 630
- Export Ratio
- 70%
- Website
- www.laswimaqua.com
- Contact via WhatsApp
About Us
LASWIM Water Environment Equipment Co., Ltd was founded in 1989 with a mission to promote the well-being of mankind, beautify living environments, and improve life quality. With over three decades of experience, LASWIM has become an industry leader in the pool and spa industry in China, offering a complete line of energy-efficient residential and commercial pool products, including infinity pools, pool pumps, filters, salt chlorine generators, underwater lights, heat pumps, pool ladders, starting platforms, racing lane lines, underwater observation windows, white plastic accessories, and integrated filtration equipment. LASWIM invests heavily in state-of-the-art manufacturing facilities equipped with the latest technology to minimize manufacturing costs while maintaining the highest standards of quality. The company is committed to certification under ISO 9001 worldwide standards for quality. LASWIM's reputation is built on a commitment to providing quality products and services while rapidly responding to international needs for its products. LASWIM remains dedicated to the development and progression of its greatest and most valuable resources - its employees. By providing professional development opportunities, employees are given the chance to increase their responsibility within the organization. LASWIM products are widely used throughout the world through its sales teams and cooperative partners in the USA, Australia, France, Spain, and other countries, forming a powerful marketing network and service system globally. To work more efficiently and effectively with customers, LASWIM embraces a "Surpass, Value, Win-Win" strategy that focuses on the company as an intimate partner in business, rather than a hardware-centered organization.
Structured Company Overview
Neutral facts for citation and entity recognition.
- Legal Name
- Laswim
- Established
- 1989
- Ownership
- Private
- Production Model
- Own Brand,OEM Service Available,ODM Service Available A
- Annual Output
- 2,400,000
- R&D Team
- 53 engineers
- Website
- www.laswimaqua.com
Product Specification Database
Each model is a structured row. No narrative descriptions.
| Name | Model | Type | Material | Applicable Industry |
|---|
Certifications & Compliance
Each record can become a certification entity page.
| Certification | Cert Number | Standard | Authority | Market | Issue Date | Expiry Date | Document |
|---|---|---|---|---|---|---|---|
| Certificate Of Compliance | FCS202512152E01 | EN IEC 55015 EN IEC 61547 EN 61000-4-2 EN IEC 61000-4-3 | Dongguan Funas Testing Technology Co.,Ltd. | EU / UK / EEA / MEA / APAC) | 2025-12-12 | 2099-12-31 | |
| Test Report | 0824001190 0824001192 0824001193 0824001194 | IEC 60335-2-40 IEC 60335-1 | Guangzhou Customs District Technology Center | EU / UK / EEA / MEA / APAC) | 2025-06-10 | 2099-12-31 | |
| Test Report | 0824001190 0824001192 0824001193 0824001194 | IEC 60335-2-40 IEC 60335-1 | Guangzhou Customs District Technology Center | EU / UK / EEA / MEA / APAC) | 2025-06-10 | 2099-12-31 | |
| Certificate Of Compliance | XTS20240516-S | EN 60335-1 EN 62233 | Dong Guan Anci Electronic Technology Co, Ltd. | MEA / APAC | 2024-06-28 | 2099-12-31 | |
| Certificate Of Compliance | XTS20240527-E | EN 61000-3-3 EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 | Dong Guan Anci Electronic Technology Co, Ltd. | MEA / APAC | 2024-06-28 | 2099-12-31 | |
| CE TEST REPORT | 0704TST20250700440CE | EN ISO 12100 EN 60204-1 ENISO 12100 EN 60204-1 | Dongguan True Safety Testing Co., Ltd. | MEA / APAC | 2025-06-03 | 2099-12-31 | |
| CERTIFICATE OF CONFORMITY | 0825002970-LVD | EN IEC 60335-2-40 EN60335-1 EN 62233 IEC 60335-1 IEC 60335-1 IEC60335-1 | Guangzhou Customs District Technology Center | EU / UK / EEA / MEA / APAC | 2025-06-10 | 2099-12-31 | |
| Certificate Of Compliance | FCS202512152CA01 | EN 60335-1 | Dongguan Funas Testing Technology Co.,Ltd. | EU / UK / EEA / MEA / APAC | 2025-12-12 | 2099-12-31 | |
| VERIFICATION OF COMPLIANCE | GZES2212023448LM | EN 60598-2-18 EN IEC 60598-1 | SGS | EU / UK / EEA / MEA / APAC | 2022-12-23 | 2099-12-31 | |
| SAFETY TEST REPORT | FCS202601178A01 | EN IEC 60598-2-1 IEC 60598-1 | Dongguan Funas Testing Technology Co.,Ltd. | EU / UK / EEA / MEA / APAC | 2026-03-04 | 2099-12-31 | |
| EMC TEST REPORT | FCS202601177E01 | EN IEC 55015: EN IEC 61547 EN IEC 61000-3-2 EN IEC 61000-3-3 EN IEC 61000-4-2 EN IEC 61000-4-3 EN IEC 61000-4-4 EN 61000-4-5 EN IEC 61000-4-6 EN IEC 61000-4-11 | Dongguan Funas Testing Technology Co.,Ltd. | EU / UK / EEA / MEA / APAC | 2026-03-04 | 2099-12-31 | |
| SAFETY TEST REPORT | FCS202601177A01 | EN IEC 60598-2-1 EN IEC 60598-1 | Dongguan Funas Testing Technology Co.,Ltd. | EU / UK / EEA / MEA / APAC | 2026-03-04 | 2099-12-31 | |
| Certificate Of Compliance | TST20241205841EC | IEC 62321-1 IEC 62321-2 IEC 62321-3-1 IEC 62321-4 IEC 62321-5 IEC 62321-6 IEC 62321-7-1 IEC62321-7-2 IEC 62321-8 | Dongguan True Safety Testing Co., Ltd. | EU / UK / EEA / MEA / APAC | 2024-12-30 | 2099-12-31 | |
| SAFETY TEST REPORT | FCS202310304A01M1 | EN 60335-1 | Dongguan Funas Testing Technology Co.,Ltd | EU / UK / EEA / MEA / APAC | 2025-01-22 | 2099-12-31 | |
| Certificate Of Compliance | TST20240702072-1SC | EN 60335-1 EN 62233 | Dongguan True Safety Testing Co., Ltd. | EU / UK / EEA / MEA / APAC | 2024-07-22 | 2028-07-21 | |
| SAFETY TEST REPORT | FCS202510140A01 | EN 60335-1 | Dongguan Funas Testing Technology Co.,Ltd | EU / UK / EEA / MEA / APAC | 2025-10-31 | 2099-12-31 | |
| EMC TEST REPORT | FCS202510140E01 | EN IEC61000-6-1 EN IEC 61000-6-3 EN IEC 61000-3-2 EN 61000-3-3 EN 61000-4-2 EN IEC 61000-4-3 EN 61000-4-4 EN 61000-4-5 EN IEC 61000-4-6 EN IEC 61000-4-11 | Dongguan Funas Testing Technology Co.,Ltd | EU / UK / EEA / MEA / APAC | 2025-10-31 | 2099-12-31 | |
| ETL FOLLOW-UP SERVICEINSPECTION REPORT | 5033484 | UL 1081 | Intertek | US | 2025-12-22 | 2099-12-31 | |
| VERIFICATION OFCOMPLIANCE | GZEM2407004114HSV | EN 61000-3-3 EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 | SGS-CSTC Standards Technical Services Co., Ltd. | EU / UK / EEA / MEA / APAC | 2024-10-11 | 2099-12-31 | |
| TEST REPORT | WTF25F01010867J | EN 60335-1 EN IEC 60335-2-41 EN 62233 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-01-02 | 2099-12-31 | |
| Waltek Testing | WTF25F01010869E | EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 EN 61000-3-3 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-01-02 | 2099-12-31 | |
| TEST REPORT | WTF25F01010858J | EN 60335-1 EN IEC 60335-2-41 EN 62233 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-01-02 | 2099-12-31 | |
| Waltek Testing | WTF25F01010863E | EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 EN 61000-3-3 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-04-02 | 2099-12-31 | |
| LVD REPORT | TST20250702446SC | EN 60335-1 EN IEC 60335-2-41 | Dongguan True Safety Testing Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-06-22 | 2099-12-31 | |
| Certificate Of Compliance | BZT20250700401EC | EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 EN 61000-3-3 | BZT Testing (Dongguan) Co.,Ltd. | EU / UK / EEA / MEA / APAC | 2025-06-21 | 2099-12-31 | |
| TEST REPORT | WTF24F10247373R1E | EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 EN 61000-3-3 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-12-12 | 2099-12-31 | |
| Waltek Testing | WTF23F04085010R2J | EN 60335-1 EN IEC 60335-2-41 EN 62233 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-12-10 | 2099-12-31 | |
| Test Report | NAP25110699C01E | IEC 62321-3-1 IEC 62321-4 IEC 62321-5 IEC 62321-6 IEC 62321-7-1 IEC 62321-8 IEC 62321-7-2 | NAP Testing Technology Service (Zhongshan) Co., LTD | EU / UK / EEA / MEA / APAC | 2025-12-16 | 2099-12-31 | |
| TEST REPORT | WTF25F07182019J | EN 60335-1 EN IEC 60335-2-41 EN 62233 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-08-26 | 2099-12-31 | |
| TEST REPORT | WTF25F01010859J | EN 60335-1 EN IEC 60335-2-41 EN 62233 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-05-27 | 2099-12-31 | |
| Waltek Testing | WTF25F07182041E | EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 EN 61000-3-3 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-08-27 | 2099-12-31 | |
| Waltek Testing | WTF25F01010862E | EN IEC 55014-1 EN IEC 55014-2 EN IEC 61000-3-2 EN 61000-3-3 | Waltek Testing Group (Foshan) Co., Ltd. | EU / UK / EEA / MEA / APAC | 2025-05-27 | 2099-12-31 |
Applications & Industries
Taxonomy-backed tags to form industry ↔ supplier ↔ product relationships.
| Industry | Country | Working Condition | Project Type | Function | Operation Mode | Special Requirement | Matched Equipment |
|---|
Industries (0) → Products (0 models) → Certifications (32)
Manufacturing Capabilities
Core processes and equipment available in-house.
Customization
Voltage Customization from Samples, Customization from Designs, Full Customization, Minor Customization, Flexible customization
Monthly Capacity
200,000 set
Lead Time
Peak Season Lead Time: within 15 workdays, one month Off Season Lead Time: within 15 workdays, one month
Export Markets
North America, South America, Europe, Southeast Asia/ Mideast, Africa, East Asia(Japan/ South Korea), Australia
After Sales
Installation guidance, commissioning & operation training, prompt troubleshooting, local service support, and original manufacturer technical team assistance.
Quality Control
100% inspection(Function inspection & Visual inspection)
Project References / Cases
Verified project records. Client names anonymized where requested.
| Client Type | Country | Quantity | Application | Duration | Result | Highlight |
|---|---|---|---|---|---|---|
| No project cases available | ||||||
Comparative Positioning
Side-by-side benchmarks against peer manufacturers in this segment.
| Compared To | Difference | Performance Gap | Best For | Cost Difference | Efficiency |
|---|---|---|---|---|---|
| Traditional Commercial Heat Pump | full DC inverter control, lower long-hour operating cost, more stable water temperature, quieter operation, better part-load efficiency | heating capacity range: 35–105 kW power supply: 380V / 3Ph / 50Hz operating ambient temperature: –20°C to 43°C refrigerant: R410A heat exchanger: PVC + titanium waterproof rating: IPX4 | commercial swimming pools, hotel pools, natatoriums, school pools, sports centers, water parks, medium and large aquatic facilities | energy consumption reduced by approximately 25–45% compared with conventional on/off commercial heat pumps under seasonal operation part-load operation during temperature maintenance significantly lowers electricity cost total ownership cost reduced by approximately 20–35% over 3–5 years DC inverter heat pump adjusts compressor output according to actual heating demand instead of repeated full-load start/stop. | full DC inverter technology improves part-load COP performance compared with traditional fixed-output units, efficiency remains higher during daily temperature holding cycles intelligent refrigerant throttling improves heat exchange stability |
| Standard underwater Pool light | smart app control, wider voltage compatibility, improved signal stability, safer low-voltage operation, easier installation and maintenance | input voltage: AC/DC 12–24V electrical safety: Class III low voltage waterproof rating: IP68 control connectivity: Wi-Fi + Tuya App signal transmission: wired signal control for higher stability monthly production capacity: 5,000 pcs | residential pools, villa pools, hotel pools, SPA pools, landscape pools, decorative water features | energy consumption reduced by approximately 60–80% compared with traditional halogen lights LED service life significantly longer than halogen lamp systems reduced replacement frequency lowers long-term maintenance cost | high-efficiency RGB 3-in-1 LED source delivers more stable light output improved optical consistency and better underwater color rendering |
| Traditional Commercial Pool Pump | high-flow commercial circulation, intelligent variable-speed control, lower operating cost, continuous-duty stability, better hydraulic efficiency | rated power: 2.2 kW / 2.9 kW motor output: 3 HP / 4 HP variable speed range: 1000–3450 rpm max flow rate: 42–48 m³/h max head: 24–25 m max working pressure: 0.35 MPa (3.5 bar) liquid temperature: 5–50°C connection size: 2.5" / 2" applicable salinity: < 4500 ppm | commercial swimming pools, hotel pools, water parks, spa centers, competition pools, medium and large circulation systems | energy consumption reduced by approximately 30–60% compared with fixed-speed commercial pumps under partial-load operation annual electricity cost significantly reduced in long-hour daily operation environments total ownership cost reduced by approximately 20–35% over 3–5 years | quipped with IE5 permanent magnet motor intelligent speed adjustment matches actual flow demand rather than fixed full-load operation higher part-load efficiency than traditional constant-speed centrifugal pumps |
| Standard Swimming Pool Pump | variable speed control, significantly lower energy consumption, quieter operation, smarter remote management, lower lifetime operating cost | variable speed range: 1000–3200 rpm max flow rate: 31–40 m³/h max head: 16.9–20 m input power: 1000W / 1300W / 1650W self-priming capability: up to 3 m max working pressure: 3.5 bar operating liquid temperature: 5–50°C connection size: 63 mm (2") | residential pools, villa pools, hotel pools, SPA pools, medium-size commercial pools, smart swimming pool circulation systems | energy consumption reduced by up to 90% compared with traditional single-speed pumps annual energy saving up to 12,614 kWh (2HP continuous operation reference) total ownership cost reduced by approximately 30–50% over 3–5 years | equipped with IE4 high-efficiency motor smart speed adjustment matches actual flow demand instead of full-load continuous operation compared with fixed-speed pumps, partial-load efficiency is significantly improved |
| Standard Pool Salt Chlorinator | smart app-based operation, integrated cell design, real-time salinity monitoring, lower maintenance, safer residential pool disinfection | salinity monitoring range: 2500–4500 ppm suitable water temperature: 10–45°C waterproof rating: IP65 chlorine output adjustable from 20%–100% self-cleaning polarity reversal extends cell lifespan by 30–50% maintenance frequency reduced by approximately 40% | residential pools, villa pools, backyard pools, above-ground pools, smart home swimming pool systems | chemical purchase cost reduced by 35–60% compared with chlorine tablets long-term operating cost reduced by 25–40% over 3–5 years compact integrated design lowers installation labor cost | intelligent chlorine output control reduces unnecessary energy consumption chlorine generation adjusts according to pool demand, improving overall operating efficiency integrated hydraulic structure reduces flow resistance versus conventional split systems |
| Traditional Swimming Pool Salt Chlorinator | smart IoT control, automatic chlorine generation, lower maintenance, safer and more stable water quality | chlorine output adjustable from 20%–100% suitable for pools up to 189m³ salinity detection range 2700–4500ppm self-cleaning function extends electrolytic cell lifespan by 30–50% waterproof grade IPX5 operating temperature range 10–45°C | residential pools, villa pools, hotel pools, SPA pools, smart swimming pool systems | chemical purchasing cost reduced by 40–60% long-term operating cost lower than traditional chlorine tablet systems integrated structure reduces installation labor cost | low-voltage DC24V/DC29V operation improves energy efficiency and safety intelligent chlorine output adjustment reduces unnecessary power consumption power consumption range only 66W–290W depending on model |
| Traditional Swimming Pool Salt Chlorinator System | higher sterilization efficiency, lower chlorine dependence, safer swimming experience, improved water clarity | 99.99% sterilization rate, chlorine consumption reduced by up to 50%, UV lamp lifespan up to 16,000 hours, corona discharge module lifespan 10+ years | high-end commercial pools, hotels, resorts, water parks, luxury residential pools, SPA pools | initial investment 20–35% higher, chemical operating cost reduced 30–50% over long-term operation | low-pressure UV system with lower energy consumption, oxidation efficiency significantly higher than traditional chlorine-only treatment, organic pollutants degraded into CO₂ and water faster |
| Traditional sand filtration systems | Ultra-fine filtration precision, fully automatic intelligent operation, and regenerative filter media recycling | Filtration precision reaches 1–3 μm (traditional sand filters: 30–50 μm). Effluent turbidity remains consistently below 0.1 NTU. Water consumption reduced by approximately 90%. Chemical consumption reduced by around 30%. On-site installation workload reduced by over 40%, with project timelines shortened by 1/2 to 2/3. | Ideal for luxury hotel pools, water parks, public competition pools, and projects requiring ultra-high water quality standards, limited plant room space, and low operational costs. | Although the initial equipment investment is higher, the system delivers rapid ROI through significant savings in water, chemicals, and labor costs. In most cases, the return on investment surpasses traditional systems within approximately two years, resulting in a substantially lower total lifecycle cost. | Integrated with high-efficiency variable speed pumps and intelligent controls for demand-based operation, significantly reducing overall energy consumption compared to conventional continuously running pump systems. |
Risk & Trust Signals
Aggregated data-driven indicators. Not an endorsement.
Purchase & Trade Information
Trading terms and procurement details.
Product Comparison
Comparative analysis against alternative solutions.
| Compared To | Difference | Performance Gap | Best For | Cost Difference | Efficiency |
|---|---|---|---|---|---|
| Traditional Commercial Heat Pump | full DC inverter control, lower long-hour operating cost, more stable water temperature, quieter operation, better part-load efficiency | heating capacity range: 35–105 kW power supply: 380V / 3Ph / 50Hz operating ambient temperature: –20°C to 43°C refrigerant: R410A heat exchanger: PVC + titanium waterproof rating: IPX4 | commercial swimming pools, hotel pools, natatoriums, school pools, sports centers, water parks, medium and large aquatic facilities | energy consumption reduced by approximately 25–45% compared with conventional on/off commercial heat pumps under seasonal operation part-load operation during temperature maintenance significantly lowers electricity cost total ownership cost reduced by approximately 20–35% over 3–5 years DC inverter heat pump adjusts compressor output according to actual heating demand instead of repeated full-load start/stop. | full DC inverter technology improves part-load COP performance compared with traditional fixed-output units, efficiency remains higher during daily temperature holding cycles intelligent refrigerant throttling improves heat exchange stability |
| Standard underwater Pool light | smart app control, wider voltage compatibility, improved signal stability, safer low-voltage operation, easier installation and maintenance | input voltage: AC/DC 12–24V electrical safety: Class III low voltage waterproof rating: IP68 control connectivity: Wi-Fi + Tuya App signal transmission: wired signal control for higher stability monthly production capacity: 5,000 pcs | residential pools, villa pools, hotel pools, SPA pools, landscape pools, decorative water features | energy consumption reduced by approximately 60–80% compared with traditional halogen lights LED service life significantly longer than halogen lamp systems reduced replacement frequency lowers long-term maintenance cost | high-efficiency RGB 3-in-1 LED source delivers more stable light output improved optical consistency and better underwater color rendering |
| Traditional Commercial Pool Pump | high-flow commercial circulation, intelligent variable-speed control, lower operating cost, continuous-duty stability, better hydraulic efficiency | rated power: 2.2 kW / 2.9 kW motor output: 3 HP / 4 HP variable speed range: 1000–3450 rpm max flow rate: 42–48 m³/h max head: 24–25 m max working pressure: 0.35 MPa (3.5 bar) liquid temperature: 5–50°C connection size: 2.5" / 2" applicable salinity: < 4500 ppm | commercial swimming pools, hotel pools, water parks, spa centers, competition pools, medium and large circulation systems | energy consumption reduced by approximately 30–60% compared with fixed-speed commercial pumps under partial-load operation annual electricity cost significantly reduced in long-hour daily operation environments total ownership cost reduced by approximately 20–35% over 3–5 years | quipped with IE5 permanent magnet motor intelligent speed adjustment matches actual flow demand rather than fixed full-load operation higher part-load efficiency than traditional constant-speed centrifugal pumps |
| Standard Swimming Pool Pump | variable speed control, significantly lower energy consumption, quieter operation, smarter remote management, lower lifetime operating cost | variable speed range: 1000–3200 rpm max flow rate: 31–40 m³/h max head: 16.9–20 m input power: 1000W / 1300W / 1650W self-priming capability: up to 3 m max working pressure: 3.5 bar operating liquid temperature: 5–50°C connection size: 63 mm (2") | residential pools, villa pools, hotel pools, SPA pools, medium-size commercial pools, smart swimming pool circulation systems | energy consumption reduced by up to 90% compared with traditional single-speed pumps annual energy saving up to 12,614 kWh (2HP continuous operation reference) total ownership cost reduced by approximately 30–50% over 3–5 years | equipped with IE4 high-efficiency motor smart speed adjustment matches actual flow demand instead of full-load continuous operation compared with fixed-speed pumps, partial-load efficiency is significantly improved |
| Standard Pool Salt Chlorinator | smart app-based operation, integrated cell design, real-time salinity monitoring, lower maintenance, safer residential pool disinfection | salinity monitoring range: 2500–4500 ppm suitable water temperature: 10–45°C waterproof rating: IP65 chlorine output adjustable from 20%–100% self-cleaning polarity reversal extends cell lifespan by 30–50% maintenance frequency reduced by approximately 40% | residential pools, villa pools, backyard pools, above-ground pools, smart home swimming pool systems | chemical purchase cost reduced by 35–60% compared with chlorine tablets long-term operating cost reduced by 25–40% over 3–5 years compact integrated design lowers installation labor cost | intelligent chlorine output control reduces unnecessary energy consumption chlorine generation adjusts according to pool demand, improving overall operating efficiency integrated hydraulic structure reduces flow resistance versus conventional split systems |
| Traditional Swimming Pool Salt Chlorinator | smart IoT control, automatic chlorine generation, lower maintenance, safer and more stable water quality | chlorine output adjustable from 20%–100% suitable for pools up to 189m³ salinity detection range 2700–4500ppm self-cleaning function extends electrolytic cell lifespan by 30–50% waterproof grade IPX5 operating temperature range 10–45°C | residential pools, villa pools, hotel pools, SPA pools, smart swimming pool systems | chemical purchasing cost reduced by 40–60% long-term operating cost lower than traditional chlorine tablet systems integrated structure reduces installation labor cost | low-voltage DC24V/DC29V operation improves energy efficiency and safety intelligent chlorine output adjustment reduces unnecessary power consumption power consumption range only 66W–290W depending on model |
| Traditional Swimming Pool Salt Chlorinator System | higher sterilization efficiency, lower chlorine dependence, safer swimming experience, improved water clarity | 99.99% sterilization rate, chlorine consumption reduced by up to 50%, UV lamp lifespan up to 16,000 hours, corona discharge module lifespan 10+ years | high-end commercial pools, hotels, resorts, water parks, luxury residential pools, SPA pools | initial investment 20–35% higher, chemical operating cost reduced 30–50% over long-term operation | low-pressure UV system with lower energy consumption, oxidation efficiency significantly higher than traditional chlorine-only treatment, organic pollutants degraded into CO₂ and water faster |
| Traditional sand filtration systems | Ultra-fine filtration precision, fully automatic intelligent operation, and regenerative filter media recycling | Filtration precision reaches 1–3 μm (traditional sand filters: 30–50 μm). Effluent turbidity remains consistently below 0.1 NTU. Water consumption reduced by approximately 90%. Chemical consumption reduced by around 30%. On-site installation workload reduced by over 40%, with project timelines shortened by 1/2 to 2/3. | Ideal for luxury hotel pools, water parks, public competition pools, and projects requiring ultra-high water quality standards, limited plant room space, and low operational costs. | Although the initial equipment investment is higher, the system delivers rapid ROI through significant savings in water, chemicals, and labor costs. In most cases, the return on investment surpasses traditional systems within approximately two years, resulting in a substantially lower total lifecycle cost. | Integrated with high-efficiency variable speed pumps and intelligent controls for demand-based operation, significantly reducing overall energy consumption compared to conventional continuously running pump systems. |