Product Introduction
I. Core Selling Points
Structure and Pressure Resistance: Employing a reinforced structure comprising ‘three rubber layers (inner rubber / middle rubber / outer rubber) + double-layer fibre braiding’, with a burst pressure ≥12.0MPa. Enables stable high-pressure gas conveyance and exhibits robust impact resistance.
Installation Ease: Features standardised interfaces compatible with mainstream industrial equipment. Requires no specialised tools, reducing installation time by 70% compared to traditional piping systems and significantly boosting construction efficiency.
Medium and Application Compatibility: Capable of conveying multiple industrial gases including oxygen, acetylene, and propane. Widely applicable across industrial scenarios such as welding, cutting, and mining operations, offering exceptional versatility.
II. Technical Advantages
Advantage Category Specific Description
High Safety Design 1. Pressure Resistance & Explosion Protection: Combines a triple-layer rubber structure (inner rubber layer, reinforcement layer, outer rubber layer) with dual-layer fibre braiding (‘two-wire’) to substantially enhance pressure resistance, with a working pressure ≥3.0MPa;
2. Withstands high-pressure gas impacts, effectively reducing the risk of pipe rupture and ensuring safe gas transmission.
Superior Corrosion Resistance & Durability 1. Chemical resistance: PVC material exhibits strong tolerance to oxygen, acetylene, oils, and various chemical media, preventing performance degradation due to medium or environmental corrosion;
2. Abrasion and ageing resistance: Outer rubber layer incorporates UV inhibitors and antioxidants, adapting to prolonged outdoor exposure to sunlight, rain, and temperature fluctuations, typically achieving a service life exceeding 3-5 years.
Lightweight Flexibility and Ease of Installation 1. Lightweight: Compared to traditional rubber hoses, PVC material is 50% lighter, reducing handling effort;
2. High Flexibility: Easily bendable for installation, accommodating complex site conditions;
3. Rapid Connection: Standardised interfaces compatible with universal gas welding/cutting equipment, enabling installation without specialised tools and saving labour time.
Cost-Effective 1. Cost advantage: PVC raw material costs are lower than rubber, with mature production processes delivering outstanding value for money;
2. Low maintenance costs: Wear-resistant and anti-ageing properties reduce frequent replacement needs, lowering long-term operational expenses
Wide Range of Applications 1. Industrial compatibility: Suitable for metal welding, cutting, heat treatment, and other scenarios, compatible with multiple industrial gases including oxygen, acetylene, and propane;
2. Environmental Adaptability: Operates reliably within -20°C to +60°C, meeting demands in harsh environments like workshops, construction sites, and mines.
III. Typical Application Scenarios
Primarily compatible with gas welding and cutting equipment for stable oxygen and acetylene delivery, including:
Steel Structure Fabrication: Gas supply for welding and cutting processes in steel construction.
Pipeline welding: Providing stable industrial gases for pipe butt welding operations
Metal component manufacturing: Meeting welding and cutting gas requirements during metal part fabrication processes
Structure and Pressure Resistance: Employing a reinforced structure comprising ‘three rubber layers (inner rubber / middle rubber / outer rubber) + double-layer fibre braiding’, with a burst pressure ≥12.0MPa. Enables stable high-pressure gas conveyance and exhibits robust impact resistance.
Installation Ease: Features standardised interfaces compatible with mainstream industrial equipment. Requires no specialised tools, reducing installation time by 70% compared to traditional piping systems and significantly boosting construction efficiency.
Medium and Application Compatibility: Capable of conveying multiple industrial gases including oxygen, acetylene, and propane. Widely applicable across industrial scenarios such as welding, cutting, and mining operations, offering exceptional versatility.
II. Technical Advantages
Advantage Category Specific Description
High Safety Design 1. Pressure Resistance & Explosion Protection: Combines a triple-layer rubber structure (inner rubber layer, reinforcement layer, outer rubber layer) with dual-layer fibre braiding (‘two-wire’) to substantially enhance pressure resistance, with a working pressure ≥3.0MPa;
2. Withstands high-pressure gas impacts, effectively reducing the risk of pipe rupture and ensuring safe gas transmission.
Superior Corrosion Resistance & Durability 1. Chemical resistance: PVC material exhibits strong tolerance to oxygen, acetylene, oils, and various chemical media, preventing performance degradation due to medium or environmental corrosion;
2. Abrasion and ageing resistance: Outer rubber layer incorporates UV inhibitors and antioxidants, adapting to prolonged outdoor exposure to sunlight, rain, and temperature fluctuations, typically achieving a service life exceeding 3-5 years.
Lightweight Flexibility and Ease of Installation 1. Lightweight: Compared to traditional rubber hoses, PVC material is 50% lighter, reducing handling effort;
2. High Flexibility: Easily bendable for installation, accommodating complex site conditions;
3. Rapid Connection: Standardised interfaces compatible with universal gas welding/cutting equipment, enabling installation without specialised tools and saving labour time.
Cost-Effective 1. Cost advantage: PVC raw material costs are lower than rubber, with mature production processes delivering outstanding value for money;
2. Low maintenance costs: Wear-resistant and anti-ageing properties reduce frequent replacement needs, lowering long-term operational expenses
Wide Range of Applications 1. Industrial compatibility: Suitable for metal welding, cutting, heat treatment, and other scenarios, compatible with multiple industrial gases including oxygen, acetylene, and propane;
2. Environmental Adaptability: Operates reliably within -20°C to +60°C, meeting demands in harsh environments like workshops, construction sites, and mines.
III. Typical Application Scenarios
Primarily compatible with gas welding and cutting equipment for stable oxygen and acetylene delivery, including:
Steel Structure Fabrication: Gas supply for welding and cutting processes in steel construction.
Pipeline welding: Providing stable industrial gases for pipe butt welding operations
Metal component manufacturing: Meeting welding and cutting gas requirements during metal part fabrication processes