Electrically Insulated Gloves and Top 10 Best Manufacturers: A Comprehensive Guide

Electrically insulated gloves are essential protective gear designed to safeguard workers from electric shocks and hazards. These gloves are vital for professionals handling electrical components, ensuring their safety while working with live circuits. Electrical safety gloves provide insulation, preventing electric currents from passing through the user’s hands, thereby reducing the risk of electrocution.

1. Back History of Electrically Insulated Gloves

The concept of insulated gloves for electrical work dates back to the early 20th century when the need for electrical safety became apparent. With advancements in electrical engineering, protective equipment evolved, leading to the development of specialized electrical insulation gloves made from high-quality insulating materials like rubber and leather.

1. Who Invented Electrically Insulated Gloves?

While the exact inventor of electricity insulated gloves is unknown, early versions of insulated gloves were developed by electrical engineers and safety experts who recognized the dangers of direct contact with electricity. Companies specializing in safety equipment refined these gloves over time to meet industrial and regulatory standards.

2.What Are Electrically Insulated Gloves?

Electrically insulated gloves are made from materials that do not conduct electricity, such as rubber, latex, or composite materials. They provide protection against electric shocks, ensuring that workers handling live wires, power lines, and electrical panels remain safe. These gloves come in various voltage ratings, including electrical gloves 11kv and insulated electrical safety gloves 1000v, depending on the level of protection required.

2. Difference Between Electrically Insulated Gloves and Other Types

3. Uses of Electrically Insulated Gloves

1. Electrical panel maintenance
2. High-voltage line repairs
3. Power station operations
4. Circuit testing and troubleshooting
5. Electric vehicle servicing
6. Industrial machinery repair
7. Construction site electrical work
8. Telecommunication installations
9. Emergency electrical repairs
10. Renewable energy system maintenance

4. Types of Electrically Insulated Gloves

1. Electrical gloves 11kv (High-voltage protection)
2. Insulated electrical safety gloves 1000v (Medium-voltage safety)
3. Rubber gloves electrical safety
4. Electric proof gloves
5. Electrical resistant gloves
6. Electrical insulation gloves
7. Electricity rubber gloves
8. Insulated gauntlets (Extended arm protection)
9. Leather gloves (Over-gloves for mechanical protection)
10. Composite insulated gloves (Multi-layer protection)

1. How Electrically Insulated Gloves Work

Electrically insulated gloves act as a barrier between the hands and electrical currents. The rubber and insulating materials prevent electrical conductivity, reducing the risk of shocks and electrocution. These gloves are often paired with leather gloves for additional mechanical protection.

2. Materials Used for Manufacturing Electrically Insulated Gloves

• Natural rubber
• Latex
• Neoprene
• Composite materials
• Leather (for over-gloves)

5. Importance of Electrically Insulated Gloves

1. Prevents electric shocks
2. Ensures worker safety
3. Reduces workplace hazards
4. Meets safety compliance standards
5. Increases efficiency in electrical work
6. Prevents arc flash injuries
7. Required in high-voltage environments
8. Enhances grip and handling of electrical tools
9. Protects against burns from short circuits
10. Essential for emergency responders

6. Benefits of Electrically Insulated Gloves

1. Provides high-voltage protection
2. Ensures compliance with safety regulations
3. Durable and long-lasting
4. Comfortable and flexible
5. Available in various voltage ratings
6. Reduces risk of severe electrical injuries
7. Used in multiple industries
8. Tested and certified for safety
9. Enhances confidence while working with electricity
10. Cost-effective in preventing accidents

1. The Average Annual Production of Electrically Insulated Gloves

The global production of electrical safety gloves has been increasing due to rising safety standards in industries. On average, millions of pairs are manufactured yearly to meet the demand in electrical maintenance, construction, and industrial sectors.

2. Use of Electrically Insulated Gloves in the Past, Present, and Future

• Past: Basic rubber gloves were used for electrical protection without rigorous testing.
• Present: Advanced gloves with enhanced insulation, certifications, and additional protective layers.
• Future: Smart gloves with sensors for real-time safety monitoring and improved materials for durability.

7. Various Information About Gloves

Electrical gloves are essential personal protective equipment (PPE) used to protect workers from electrical shocks, burns, and other hazards while working with energized equipment. These gloves are classified based on voltage protection levels and are made of insulating materials like rubber. Below are the main types of electrical gloves:

1. Classification by Voltage Protection

Electrical gloves are classified into six categories based on their voltage protection levels, as per ASTM D120 and IEC 60903 standards:

2. Types of Electrical Gloves

Electrical gloves are categorized into two main types:

a) Insulating Gloves

• Made from high-quality rubber.
• Provide primary protection against electrical hazards.
• Must be used with leather protectors to prevent punctures and tears.
• Available in different classes based on voltage rating.

b) Composite Gloves

• Made of rubber with additional outer protection.
• Can be used without leather protectors.
• Provide both mechanical and electrical protection.
• Ideal for environments where gloves may be exposed to abrasion or cuts.

3. Additional Considerations

• Arc Flash Rated Gloves: Special gloves designed to protect against arc flash burns in addition to electrical shock.
• Glove Liners: Cotton or wool liners that improve comfort by reducing sweat and irritation.
• Leather Protectors: Worn over insulating gloves to enhance durability and mechanical protection.

4. Testing and Maintenance

• Electrical gloves must be dielectric tested every 6 months to ensure safety.
• Inspect gloves before each use for cuts, tears, holes, swelling, or contamination.
• Store gloves in a dry, cool place away from direct sunlight and chemicals.

Choosing the right electrical gloves depends on the voltage level, work environment, and comfort. Regular inspection and testing are crucial to maintaining their effectiveness in protecting workers from electrical hazards

8. Electrical Gloves Specification

Electrical gloves are specialized protective equipment designed to protect workers from electrical shocks and hazards. These gloves are made of insulating rubber and classified based on voltage protection levels according to ASTM D120 and IEC 60903 standards.

1. Classification Based on Voltage Ratings

Electrical gloves are categorized into six classes based on their maximum voltage protection:

2. Material & Construction

• Material: 100% natural rubber or synthetic rubber.
• Design: Five-finger design for flexibility and comfort.
• Thickness: Varies based on voltage rating (higher classes have thicker gloves).
• Durability: Resistant to ozone, UV radiation, and aging.
• Compliance: Meets ASTM D120, IEC 60903, and other international safety standards.

3. Additional Features

• Leather Protectors: Must be worn over rubber gloves for mechanical protection.
• Glove Liners: Cotton or wool liners enhance comfort and reduce sweating.
• Arc Flash Protection: Some gloves are rated for arc flash resistance.

4. Testing & Certification

• Dielectric Testing: Required every 6 months to check insulation integrity.
• Visual Inspection: Check for cuts, holes, swelling, and contamination before use.
• Storage Conditions:
  • Store in a cool, dry place away from sunlight and chemicals.
  • Avoid folding to prevent damage.

5. Applications

• Electrical maintenance and repairs.
• Power plant and utility work.
• High-voltage equipment handling.
• Electric vehicle (EV) servicing.

9. Electrical Gloves Classes

Electrical gloves are classified into different classes based on the voltage protection they provide. These gloves are made of insulating rubber and are essential for protecting workers from electrical hazards. The classification follows ASTM D120 and IEC 60903 standards.

1. Classification of Electrical Gloves by Voltage Rating

2. Features of Electrical Gloves

• Material: Made of natural or synthetic rubber for high dielectric properties.
• Thickness: Increases with higher class ratings for better insulation.
• Design: Flexible, ergonomic, and available in different sizes for comfort.
• Additional Protection:
  • Leather protectors must be worn over rubber gloves to prevent punctures and abrasions.
  • Glove liners improve comfort and reduce sweat buildup.

3. Testing & Certification

• Visual Inspection: Check for cuts, holes, swelling, or contamination before each use.
• Electrical Testing:
  • Must be dielectric tested every 6 months.
  • Gloves should be tested at higher voltages than their rated class for safety assurance.
• Storage:
  • Keep gloves dry and away from sunlight, heat, or chemicals.
  • Store flat or in glove bags to prevent creasing and damage.

4. Applications of Different Classes

• Class 00 & 0: Used in low-voltage electrical work, maintenance, and EV (electric vehicle) servicing.
• Class 1 & 2: Suitable for industrial electrical work, power plants, and large-scale electrical systems.
• Class 3 & 4: Designed for high-voltage environments, including transmission lines and utility substations.

Selecting the correct class of electrical gloves depends on the voltage level of the work environment. Regular testing and inspection are essential to ensure their reliability and safety.

Would you like recommendations for specific glove brands or testing procedure.

10. Electrical Insulated Gloves Rating

Electrical insulated gloves are designed to protect workers from electric shock, burns, and other hazards when working with live electrical systems. These gloves are classified based on their maximum use voltage rating and must comply with international standards such as ASTM D120 and IEC 60903.

1. Electrical Insulated Gloves Voltage Ratings

Electrical gloves are categorized into six classes, each rated for a specific voltage level:

🔹 Max Use Voltage: The highest voltage the gloves can safely protect against.
🔹 Test Voltage: The voltage applied during periodic testing to ensure safety and integrity.

2. Insulating Glove Construction & Features

• Material: 100% natural rubber or synthetic rubber with high dielectric strength.
• Thickness: Increases with higher class ratings for improved insulation.
• Flexibility: Designed for ease of movement and comfort.
• Grip Surface: Some gloves have textured surfaces for better grip on tools and equipment.

3. Additional Protection & Accessories

• Leather Protectors: Must be worn over insulated gloves to prevent cuts and abrasions.
• Glove Liners: Cotton or wool liners help reduce sweat and increase comfort.
• Arc Flash Resistant Gloves: Specially designed for protection against arc flash burns.

4. Testing & Certification

• Visual Inspection: Required before each use to check for damage (cuts, tears, swelling).
• Dielectric Testing:
  • Gloves must be tested every 6 months to ensure electrical integrity.
  • Testing is performed at voltages higher than their rated class.
• Proper Storage:
  • Store in a dry, cool place away from sunlight and chemicals.
  • Avoid folding or creasing to maintain insulation properties.

5. Applications of Electrical Insulated Gloves

• Class 00 & 0: Used for low-voltage applications like panel work and EV maintenance.
• Class 1 & 2: Suitable for industrial electrical systems and power distribution.
• Class 3 & 4: Designed for high-voltage environments such as utility substations and power transmission lines.

Choosing the correct class of electrical insulated gloves depends on the working voltage. Regular inspection and testing are essential to ensure continued protection and compliance with safety standards.

11. Types of Safety Gloves

Safety gloves are essential personal protective equipment (PPE) used to protect hands from hazards such as chemicals, heat, cuts, and electrical shock. The choice of gloves depends on the work environment and specific risks involved. Below are the main types of safety gloves:

1. Electrical Safety Gloves

🔹 Purpose: Protect against electrical shock and high-voltage hazards.
🔹 Material: Insulating rubber with leather protectors.
🔹 Common Uses: Electrical maintenance, power plants, and high-voltage operations.
🔹 Classification: Class 00 to Class 4 based on voltage rating.

2. Cut-Resistant Gloves

🔹 Purpose: Protect against cuts and punctures from sharp objects.
🔹 Material: Kevlar, Dyneema, stainless steel mesh, or high-performance polyethylene (HPPE).
🔹 Common Uses: Metalworking, glass handling, and construction.
🔹 Cut Resistance Rating: ANSI Cut Levels A1–A9.

3. Chemical-Resistant Gloves

🔹 Purpose: Provide protection against harmful chemicals, acids, and solvents.
🔹 Material:

• Nitrile – Resistant to oils, greases, and chemicals.
• Neoprene – Protects against acids, solvents, and oils.
• PVC – Offers resistance to water, oils, and mild chemicals.
• Butyl Rubber – Protects against strong acids and gases.
  🔹 Common Uses: Laboratory work, chemical processing, and cleaning.

4. Heat-Resistant Gloves

🔹 Purpose: Protect against burns from heat, fire, and molten metal.
🔹 Material: Leather, Kevlar, aluminized fabric, and carbon fiber.
🔹 Common Uses: Welding, foundries, and high-temperature industrial work.

5. Impact-Resistant Gloves

🔹 Purpose: Reduce the impact of heavy objects and vibrations.
🔹 Material: Reinforced rubber, thermoplastic rubber (TPR), and foam padding.
🔹 Common Uses: Oil and gas industry, mining, and heavy machinery operation.

6. Disposable Gloves

🔹 Purpose: Protect against contamination and minor chemical exposure.
🔹 Material:

• Latex – Provides good dexterity but can cause allergies.
• Nitrile – More durable and resistant to chemicals.
• Vinyl – Cost-effective but less durable.
  🔹 Common Uses: Medical, food processing, and laboratory work.

7. Cold-Resistant Gloves

🔹 Purpose: Protect hands from extreme cold and frostbite.
🔹 Material: Insulated fabric, fleece, or leather with thermal lining.
🔹 Common Uses: Refrigerated storage, outdoor winter work, and cold environments.

8. General-Purpose Work Gloves

🔹 Purpose: Provide protection against minor cuts, abrasions, and dirt.
🔹 Material: Cotton, leather, or synthetic fabric with rubber coatings.
🔹 Common Uses: Construction, gardening, and material handling.

Selecting the right safety gloves depends on the hazards in the workplace. Always check for proper certifications and standards to ensure maximum protection.

12. Types of hand gloves

Hand gloves are essential personal protective equipment (PPE) designed to protect hands from various hazards, including chemical exposure, cuts, burns, and electrical shocks. Different types of gloves are used for different applications based on their material and protection level.

1. Disposable Gloves

🔹 Purpose: Protection against contamination, germs, and mild chemicals.
🔹 Material:

• Latex – Offers good flexibility but may cause allergies.
• Nitrile – More durable, chemical-resistant, and allergy-free.
• Vinyl – Affordable, but less durable and tear-resistant.
  🔹 Common Uses: Medical, food handling, laboratory work, and cleaning.

2. Fabric and Cotton Gloves

🔹 Purpose: Protect against dirt, splinters, and minor abrasions.
🔹 Material: Cotton, polyester, or wool.
🔹 Common Uses: General maintenance, gardening, and light industrial work.

3. Leather Gloves

🔹 Purpose: Protection against heat, sparks, and abrasions.
🔹 Material: Cowhide, pigskin, or goatskin leather.
🔹 Common Uses: Welding, construction, and heavy-duty work.

4. Cut-Resistant Gloves

🔹 Purpose: Prevent cuts and punctures from sharp objects.
🔹 Material: Kevlar, Dyneema, stainless steel mesh, or HPPE (high-performance polyethylene).
🔹 Common Uses: Glass handling, metalworking, and woodworking.

5. Chemical-Resistant Gloves

🔹 Purpose: Protect hands from harmful chemicals and solvents.
🔹 Material:

• Nitrile – Resistant to oils, greases, and some chemicals.
• Neoprene – Protects against acids, oils, and solvents.
• Butyl Rubber – Offers strong resistance to gases and chemicals.
  🔹 Common Uses: Chemical processing, cleaning, and laboratory work.

6. Electrical Insulated Gloves

🔹 Purpose: Protect against electrical shocks and high-voltage hazards.
🔹 Material: Insulating rubber with leather protectors.
🔹 Voltage Ratings: Class 00 to Class 4 based on voltage levels.
🔹 Common Uses: Electrical maintenance, power line work, and EV servicing.

7. Heat-Resistant Gloves

🔹 Purpose: Protection against burns from high temperatures.
🔹 Material: Kevlar, leather, aluminized fabric, or carbon fiber.
🔹 Common Uses: Welding, foundries, and high-temperature industrial work.

8. Impact-Resistant Gloves

🔹 Purpose: Absorb impact and protect against heavy objects.
🔹 Material: Thermoplastic rubber (TPR), reinforced padding, and shock-absorbing foam.
🔹 Common Uses: Construction, oil & gas, mining, and heavy machinery work.

9. Cold-Resistant Gloves

🔹 Purpose: Protect against extreme cold and frostbite.
🔹 Material: Insulated fabric, fleece, or leather with thermal lining.
🔹 Common Uses: Winter outdoor work, refrigerated storage, and cold environments.

10. General-Purpose Work Gloves

🔹 Purpose: Provide protection against minor injuries, dirt, and abrasions.
🔹 Material: Synthetic fabric, rubber-coated fabric, or leather.
🔹 Common Uses: Construction, material handling, and gardening.

Selecting the right hand gloves depends on the specific risks and hazards of the job. Always ensure that gloves meet safety standards for optimal protection.

13. Electrical Gloves Standards

Electrical gloves are Personal Protective Equipment (PPE) designed to protect workers from electric shocks and arc flash hazards. They must comply with international safety standards to ensure effective insulation and durability. The primary standards governing electrical gloves are ASTM D120 and IEC 60903.

1. Key Standards for Electrical Gloves

A. ASTM D120 (American Standard)

🔹 Full Name: ASTM D120 – Standard Specification for Rubber Insulating Gloves
🔹 Issued by: American Society for Testing and Materials (ASTM)
🔹 Scope: Defines material requirements, voltage ratings, and testing procedures for electrical gloves used in the U.S.
🔹 Glove Classes & Voltage Ratings (AC/DC):

✅ Mandatory Testing: Gloves must pass dielectric tests, physical tests, and ozone resistance tests.
✅ Inspection Frequency: Gloves must be tested every 6 months or before each use if damaged.

B. IEC 60903 (International Standard)

🔹 Full Name: IEC 60903 – Live Working – Electrical Insulating Gloves
🔹 Issued by: International Electrotechnical Commission (IEC)
🔹 Scope: Defines material requirements, mechanical properties, and test procedures for global applications.
🔹 Main Differences from ASTM D120:

• IEC 60903 includes additional tests for puncture resistance and mechanical strength.
• Includes category codes:
  • A (Acid-resistant)
  • H (Oil-resistant)
  • Z (Ozone-resistant)
  • R (Resistant to acid, oil & ozone)
  • C (Extreme low-temperature resistant)

2. Additional Safety Requirements

✅ Leather Protectors: Must be worn over rubber gloves to prevent cuts and abrasions.
✅ Storage Guidelines: Store in a dry, cool place, away from sunlight, heat, and chemicals.
✅ Inspection Before Use: Always check for cuts, holes, swelling, or contamination.

3. Applications of Electrical Gloves

• Class 00 & 0 – Low-voltage maintenance, EV servicing, and electrical panel work.
• Class 1 & 2 – Industrial electrical systems and power distribution.
• Class 3 & 4 – High-voltage power lines, substations, and transmission towers.

Electrical gloves must comply with ASTM D120 or IEC 60903 standards for safety and effectiveness. Regular testing, inspection, and proper storage are critical for maintaining their protective properties.

14. General Standards for Gloves

Gloves are an essential part of Personal Protective Equipment (PPE), providing protection against various hazards such as chemicals, cuts, heat, cold, impact, and electrical risks. Several international standards ensure gloves meet safety, durability, and performance requirements.

1. Key International Standards for Gloves

A. EN 388 – Cut, Abrasion, and Puncture Resistance (European Standard)

🔹 Scope: Evaluates mechanical risks such as abrasion, blade cuts, tears, and punctures.
🔹 Testing Criteria:

• Abrasion Resistance: 1 to 4 (higher number = better resistance)
• Cut Resistance: A to F (A = low, F = high protection)
• Tear Resistance: 1 to 4
• Puncture Resistance: 1 to 4
• Impact Protection: Pass/Fail

🛠 Used for: Construction, metalworking, and glass handling.

B. EN 374 – Chemical & Micro-Organism Protection (European Standard)

🔹 Scope: Ensures gloves provide chemical and biological resistance.
🔹 Classification:

• Type A: High resistance to at least 6 chemicals.
• Type B: Moderate resistance to at least 3 chemicals.
• Type C: Low resistance to at least 1 chemical.

🛠 Used for: Chemical handling, laboratories, and medical applications.

C. EN 407 – Heat & Fire Resistance (European Standard)

🔹 Scope: Tests gloves against heat, fire, and molten metal.
🔹 Performance Levels: Rated 1 to 4 for:

• Flammability resistance
• Contact heat
• Convective heat
• Radiant heat
• Small splashes of molten metal
• Large splashes of molten metal

🛠 Used for: Welding, foundries, and high-heat environments.

D. EN 511 – Cold Resistance (European Standard)

🔹 Scope: Measures insulation against cold and water penetration.
🔹 Performance Ratings (0 to 4):

• Convective cold resistance
• Contact cold resistance
• Water penetration resistance

🛠 Used for: Outdoor winter work, cold storage, and freezer handling.

E. ASTM D120 – Electrical Insulating Gloves (American Standard)

🔹 Scope: Specifies requirements for electrical safety gloves.
🔹 Voltage Classes: Rated from Class 00 (500V) to Class 4 (36,000V).
🔹 Testing: Gloves must pass dielectric and physical durability tests every 6 months.

🛠 Used for: Electrical maintenance, power line work, and EV servicing.

F. ANSI/ISEA 105 – General Hand Protection (American Standard)

🔹 Scope: Covers cut, abrasion, puncture, chemical, and heat resistance.
🔹 Cut Resistance Levels: A1 (low) to A9 (high).
🔹 Impact Protection: Tests gloves for impact absorption.

🛠 Used for: Industrial, mechanical, and chemical applications.

2. Other Important Standards

Choosing the right glove standard depends on the hazards in your workplace. Always check for certifications and regular testing to ensure compliance with safety regulations.

15. Pros & Cons of Electrically Insulated Gloves

Benefits of electrically insulated gloves

1. Pros

1. High voltage protection
2. Prevents electrocution
3. Lightweight and flexible
4. Available in different ratings
5. Enhances worker safety
6. Tested for reliability
7. Mandatory in many industries
8. Cost-effective safety measure
9. Comfortable to wear
10. Reduces risk of workplace accidents

2. Cons

1. Requires regular testing (electrical gloves expiry date)
2. Can degrade over time
3. Not resistant to sharp objects
4. Requires proper storage
5. Can be expensive
6. Limited dexterity for fine work
7. Requires additional over-gloves for mechanical protection
8. Sensitive to oils and chemicals
9. Not suitable for all weather conditions
10. Needs frequent inspections

16. Top 10 Electrically Insulated Gloves Manufacturers Companies

Electrically insulated gloves are essential personal protective equipment (PPE) for professionals working with or near live electrical circuits. These gloves provide a critical barrier against electrical shocks, ensuring the safety of workers in various industries. Below is an overview of the top 10 manufacturers specializing in electrically insulated gloves, including their location, founding year, staff strength, and annual production. Additionally, a list of 10 products from each company is provided.​

1. Honeywell Safety Products

Honeywell Safety Products is a global leader in personal protective equipment, offering a comprehensive range of safety solutions, including electrically insulated gloves. Their products are designed to meet international safety standards, ensuring maximum protection for electrical workers.​

• Location: 300 S Tryon St, Charlotte, NC 28202, USA​
• Founded: 1906​
• Staff Strength: Approximately 110,000 employees​
• Annual Production: Not publicly disclosed​

Products:

• Electriflex™ Rubber Insulating Gloves​
• Leather Protector Gloves​
• Arc Flash Gloves​
• High Voltage Rubber Gloves​
• Low Voltage Rubber Gloves​
• Electrically Insulating Sleeves​
• Dielectric Boots​
• Insulating Blankets​
• Voltage Detectors​
• Glove Inflator Kits​

2. Ansell Limited

Ansell Limited is a global leader in protection solutions, offering a wide range of safety products, including electrical insulation gloves designed for various voltage levels. Their ActivArmr series is renowned for its durability and comfort.​

• Location: 111 Wood Avenue South, Suite 210, Iselin, NJ 08830, USA​
• Founded: 1905​
• Staff Strength: Approximately 13,000 employees​
• Annual Production: Not publicly disclosed​

Products:

• ActivArmr Electrical Insulating Gloves Class 00​
• ActivArmr Electrical Insulating Gloves Class 0​
• ActivArmr Electrical Insulating Gloves Class 1​
• ActivArmr Electrical Insulating Gloves Class 2​
• ActivArmr Electrical Insulating Gloves Class 3​
• ActivArmr Electrical Insulating Gloves Class 4​
• HyFlex Cut-Resistant Gloves​
• Edge Industrial Work Gloves​
• TouchNTuff Disposable Gloves​
• Microflex Examination Gloves​

3. YOTSUGI Co., Ltd.

YOTSUGI Co., Ltd. is a Japanese company specializing in electrical insulating equipment, including high-quality gloves that meet international standards. Their products are widely used in the electrical industry for their reliability and safety features.​

• Location: 4-5-13, Takinogawa, Kita-ku, Tokyo 114-0023, Japan​
• Founded: 1953​
• Staff Strength: Approximately 200 employees​
• Annual Production: Not publicly disclosed​

Products:

• Insulating Gloves Class 00​
• Insulating Gloves Class 0​
• Insulating Gloves Class 1​
• Insulating Gloves Class 2​
• Insulating Gloves Class 3​
• Insulating Gloves Class 4​
• Leather Protector Gloves​
• Insulating Sleeves​
• Dielectric Boots​
• Insulating Mats​

4. Regeltex

Regeltex is a French manufacturer specializing in electrical insulating gloves, offering products that comply with international standards such as IEC and EN. Their gloves are known for their quality and durability, providing safety for electrical workers worldwide.​

• Location: ZI Les Granges Galand, 37550 Saint-Avertin, France​
• Founded: 1992​
• Staff Strength: Approximately 100 employees​
• Annual Production: Not publicly disclosed​

Products:

• Insulating Gloves Class 00​
• Insulating Gloves Class 0​
• Insulating Gloves Class 1​
• Insulating Gloves Class 2​
• Insulating Gloves Class 3​
• Insulating Gloves Class 4​
• Composite Gloves​
• Leather Protector Gloves​
• Insulating Sleeves​
• Glove Storage Bags
• ​

5. Polyco

Polyco is a UK-based manufacturer known for its innovative hand protection solutions, including electrically insulated gloves that comply with EN60903 standards.

Location: Crown Road, Enfield, Middlesex, EN1 1TX, United Kingdom​ Founded: 1979​ Staff Strength: Over 250 employees​ Annual Production: Not publicly disclosed​

Products:

• Electrician’s Insulating Latex Gloves Class 0​
• Electrician’s Insulating Latex Gloves Class 00​
• Electrician’s Insulating Latex Gloves Class 1​
• Electrician’s Insulating Latex Gloves Class 2​
• Electrician’s Insulating Latex Gloves Class 3​
• Electrician’s Insulating Latex Gloves Class 4​
• Leather Protector Gauntlets​
• Cut-Resistant Gloves​
• Chemical Resistant Gloves​
• Thermal Protection Gloves​

6. Stanco Safety Products

Stanco Safety Products is a USA-based manufacturer specializing in arc flash PPE, flame-resistant clothing, and electrical insulating gloves. Their gloves are known for durability and compliance with industry standards.

• Location: P.O. Box 1160, Atlanta, TX 75551, USA
• Founded: 1986
• Staff Strength: Over 200 employees
• Annual Production: Not publicly disclosed

Products:

• Arc Flash Rubber Insulating Gloves
• Dielectric Class 00 Gloves
• Dielectric Class 0 Gloves
• Dielectric Class 1 Gloves
• Dielectric Class 2 Gloves
• Dielectric Class 3 Gloves
• Dielectric Class 4 Gloves
• Leather Protectors for Electrical Gloves
• High-Voltage Safety Sleeves
• Electrical Glove Inflation Tester

7. Saf-T-Gard International, Inc.

Saf-T-Gard is a family-owned business specializing in personal protective equipment (PPE), including rubber insulating gloves for electrical work. Their gloves are tested to meet OSHA and ASTM D120 standards.

• Location: 205 Huehl Road, Northbrook, IL 60062, USA
• Founded: 1936
• Staff Strength: Over 100 employees
• Annual Production: Not publicly disclosed

Products:

• Voltgard Class 00 Electrical Insulating Gloves
• Voltgard Class 0 Electrical Insulating Gloves
• Voltgard Class 1 Electrical Insulating Gloves
• Voltgard Class 2 Electrical Insulating Gloves
• Voltgard Class 3 Electrical Insulating Gloves
• Voltgard Class 4 Electrical Insulating Gloves
• Leather Protective Gloves for Insulating Gloves
• Arc Flash Rated Gloves
• Glove Test Equipment
• Electrical Insulating Sleeves

8. CATU Safety Equipment

CATU is a French company specializing in electrical safety equipment, including insulating gloves for high-voltage applications. Their products comply with IEC 60903 and EN 60903 standards.

• Location: 10 Rue Ampère, 78180 Montigny-le-Bretonneux, France
• Founded: 1919
• Staff Strength: Over 500 employees
• Annual Production: Not publicly disclosed

Products:

• CATU Class 00 Insulating Gloves
• CATU Class 0 Insulating Gloves
• CATU Class 1 Insulating Gloves
• CATU Class 2 Insulating Gloves
• CATU Class 3 Insulating Gloves
• CATU Class 4 Insulating Gloves
• CATU Dielectric Overshoes
• Insulating Sleeves for Electrical Work
• Glove Storage Bags
• Electrical Safety Mats

9. Oberon Company

Oberon Company specializes in arc flash PPE and electrical safety equipment, offering a wide range of electrically insulated gloves designed for high-voltage protection.

• Location: 375 Faunce Corner Road, Unit F, Dartmouth, MA 02747, USA
• Founded: 1978
• Staff Strength: Over 300 employees
• Annual Production: Not publicly disclosed

Products:

• Oberon Class 00 Electrical Gloves
• Oberon Class 0 Electrical Gloves
• Oberon Class 1 Electrical Gloves
• Oberon Class 2 Electrical Gloves
• Oberon Class 3 Electrical Gloves
• Oberon Class 4 Electrical Gloves
• Leather Protective Gloves for Insulating Gloves
• Arc Flash Safety Gloves
• Dielectric Boots
• Electrical Glove Air Testers

10. Regeltex (Honeywell)

Regeltex, a subsidiary of Honeywell, is a French-based manufacturer of electrical insulating gloves. Their products comply with IEC 60903 and EN 60903 standards and are widely used worldwide.

• Location: ZI Les Granges Galand, 37550 Saint-Avertin, France
• Founded: 1992
• Staff Strength: Approximately 100 employees
• Annual Production: Not publicly disclosed

Products:

• Regeltex Class 00 Electrical Gloves
• Regeltex Class 0 Electrical Gloves
• Regeltex Class 1 Electrical Gloves
• Regeltex Class 2 Electrical Gloves
• Regeltex Class 3 Electrical Gloves
• Regeltex Class 4 Electrical Gloves
• Composite Gloves with Mechanical Protection
• Leather Protectors for Insulated Gloves
• Arc Flash Rated Insulating Gloves
• Electrical Insulating Sleeves

Electrically insulated gloves are vital safety equipment for professionals working with live electrical circuits and high-voltage environments. These gloves must meet international safety standards such as ASTM D120, IEC 60903, and EN 60903 to ensure maximum protection against electric shocks.

When purchasing electrically insulated gloves, it is essential to consider:
✔ Voltage rating and class compliance
✔ Standards certification (OSHA, IEC, ASTM, NFPA, etc.)
✔ Durability and material quality
✔ Periodic testing and replacement schedule

By choosing high-quality insulated gloves from these top manufacturers, workers can ensure maximum safety and efficiency in their electrical operations.

17. Standards to Observe While Purchasing Electrically Insulated Gloves

When purchasing electrically insulated gloves, it is crucial to adhere to international safety standards to ensure optimal protection. Some of the key standards include:

• ASTM D120 – Specifies requirements for rubber insulating gloves used in electrical work.
• EN 60903 – European standard defining the safety and testing of electrical gloves.
• NFPA 70E – Guidelines for electrical workplace safety, including PPE requirements.
• IEC 60903 – International standard for insulating gloves in electrical applications.
• OSHA 1910.137 – Occupational safety regulations for rubber insulating equipment.

Always check the gloves’ class rating, which determines their voltage protection capacity, and ensure they meet industry-approved testing standards.

1. Best and Cheapest Electrically Insulated Gloves

Finding the best and most affordable electrically insulated gloves requires balancing quality, compliance, and budget. Some of the best-rated and cost-effective gloves include:

1. Salisbury by Honeywell Electriflex Gloves – Durable and flexible, suitable for high voltage protection.
2. Ansell ActivArmr Electrical Insulating Gloves – Affordable and compliant with ASTM standards.
3. Polyco Electrician’s Latex Gloves – Budget-friendly while meeting EN 60903 standards.
4. CATU Electrical Insulated Gloves – Reliable and used by professionals worldwide.
5. Epicor High Voltage Gloves – Designed for heavy-duty electrical work at an economical price.

To save costs, consider bulk purchasing, checking for certified refurbished gloves, or opting for sales and discounts from reputed suppliers.

2. Replacement Duration for Electrically Insulated Gloves

Electrically insulated gloves should be replaced regularly to maintain safety and effectiveness. Here are some key replacement guidelines:

• Before each use – Inspect for tears, punctures, and signs of wear.
• OSHA Regulation – Requires gloves to be tested every 6 months.
• If gloves are exposed to extreme conditions – Replace immediately if compromised.
• Storage conditions – Store in a cool, dry place away from direct sunlight to prolong lifespan.

Using glove inflation testers can help detect air leaks and ensure the integrity of the gloves before use.

3. International Manufacturers’ Recommendations for Electrically Insulated Gloves

Leading manufacturers provide guidelines on proper use, testing, and maintenance of insulated gloves. Key recommendations include:

• Salisbury by Honeywell: Store gloves in protective bags and use a leather protector to extend life.
• Ansell: Follow 6-month electrical retesting cycles and replace gloves showing any deterioration.
• Epicor: Use insulated sleeves for extra protection and avoid using gloves beyond the recommended voltage.
• Polyco: Always follow class rating specifications for the appropriate working environment.
• CATU: Comply with IEC 60903 guidelines for periodic testing and safe handling.

Regular electrical testing, visual inspections, and adherence to industry standards ensure maximum safety when using electrically insulated gloves.

4. Summary of Electrically Insulated Gloves

Electrically insulated gloves are an essential part of electrical safety gear, providing protection against electric shocks and high-voltage hazards. When selecting gloves, ensure they:

✔ Meet international safety standards (ASTM D120, IEC 60903, EN 60903, NFPA 70E).
✔ Are classified according to voltage ratings for the intended application.
✔ Undergo regular inspection and testing to maintain integrity and effectiveness.
✔ Are used with leather protectors for added durability and lifespan.
✔ Are stored properly in cool, dry environments to prevent damage.

By following proper usage, maintenance, and replacement guidelines, workers can ensure maximum safety while handling electrical tasks.

18. Questions & Answers on Electrically Insulated Gloves

1. What are electrically insulated gloves used for?

Electrically insulated gloves are designed to protect workers from electrical shocks when working on or near live electrical equipment. They are essential for electricians, linemen, and power plant workers.

2. What materials are used in electrically insulated gloves?

These gloves are made from high-quality rubber, either:
✅ Natural Rubber (Type I) – Flexible but not ozone-resistant.
✅ Synthetic Rubber (Type II) – More durable and ozone-resistant.

3. How do I determine the right class of electrical gloves?

Electrical gloves are classified based on maximum voltage protection. Choose the correct class based on the voltage you will be working with:

4. How often should electrically insulated gloves be tested?

✅ Before Each Use – Visually inspect for cracks or wear.
✅ Every 6 Months – Dielectric testing required per ASTM D120 & OSHA 1910.137.
✅ After Suspected Damage – Gloves should be immediately tested or replaced.

5. Why do I need leather protector gloves over rubber gloves?

Leather protector gloves are worn over rubber gloves to:
🔹 Prevent cuts, punctures, and abrasions.
🔹 Extend the lifespan of rubber gloves.
🔹 Ensure compliance with safety regulations.

6. Can I use electrically insulated gloves for all electrical work?

Not necessarily. Some electrical work may require additional PPE like:
✅ Arc-rated gloves for protection against arc flashes.
✅ Composite gloves for added mechanical durability.
✅ Gloves with chemical resistance for battery handling.

7. How should I store my electrically insulated gloves?

To maintain glove effectiveness:
✅ Store in a cool, dry place away from sunlight and heat.
✅ Do not fold or crease the gloves.
✅ Use a protective bag to keep them free from dirt and oils.

8. What tests are conducted on electrically insulated gloves?

Electrical gloves undergo dielectric testing to check insulation strength.
✅ Visual Inspection – Looks for cuts, cracks, or swelling.
✅ Air Inflation Test – Inflating the glove checks for leaks.
✅ Dielectric Test – Ensures gloves withstand their rated voltage.

9. Can electrically insulated gloves be repaired if damaged?

No, once damaged, they must be discarded. Even small punctures or cuts compromise electrical protection and make the gloves unsafe.

10. Who should use electrically insulated gloves?

These gloves are essential for:
✅ Electricians & Utility Workers – Handling live circuits.
✅ Industrial Maintenance Crews – Working on power systems.
✅ EV Technicians – Repairing high-voltage electric vehicles.
✅ Firefighters & First Responders – Assisting in electrical accidents.

19. Conclusion

Electrically insulated gloves are an essential part of electrical safe gloves used in industries that handle electrical components. Their evolution from simple rubber gloves to high-tech, multi-layered safety gear ensures maximum protection against electrical hazards. With the continuous development of insulated gloves for electrical work, the future of electrical safety looks promising, offering better protection and efficiency for professionals worldwide.