Structured Manufacturing Data (2026)

Gun Body/Handle

Based on aggregated insights from structured factory profiles within the CNFX directory, the standard Gun Body/Handle used in the Machinery and Equipment Manufacturing sector typically supports operational capacities ranging from standard industrial configurations to heavy-duty production requirements.

Technical Definition & Core Assembly

A canonical Gun Body/Handle is characterized by the integration of Trigger Assembly and Fluid Channel. In industrial production environments, manufacturers listed on CNFX commonly emphasize Engineering plastic construction to support stable, high-cycle operation across diverse manufacturing scenarios.

The main structural component of an electrostatic spray gun that houses internal mechanisms and provides ergonomic handling.

View Full Specifications Explore Manufacturing Sources

Product Specifications

Technical details and manufacturing context for Gun Body/Handle

Definition

The gun body/handle is the primary structural component of an electrostatic spray gun, serving as the housing for internal electrical and fluid systems while providing an ergonomic interface for operator control. It integrates the trigger mechanism, fluid channels, and electrical connections, and is designed to ensure proper grounding and insulation for electrostatic charging.

Working Principle

The gun body/handle provides structural support and houses the fluid delivery system, electrostatic charging circuit, and trigger mechanism. It maintains electrical isolation between high-voltage components and the operator while ensuring proper grounding paths. The ergonomic design allows for precise control of spray patterns and trigger operation.

Common Materials

Engineering plastic, Aluminum alloy, Stainless steel

Technical Parameters

Overall dimensions including length, width, and grip diameter (mm) Per Request

Components / BOM

Trigger Assembly
Controls fluid flow and electrostatic charging activation

Material: Engineering plastic
Fluid Channel Part
Directs paint or coating material from inlet to nozzle

Material: Stainless steel
Grounding Contact Part
Provides electrical connection for operator safety grounding

Material: Copper alloy
High-Voltage Insulator
Isolates high-voltage components from operator contact

Material: Ceramic or high-grade plastic

Industry Taxonomies & Aliases

Commonly used trade names and technical identifiers for Gun Body/Handle.

Applied To / Applications

This component is essential for the following industrial systems and equipment:

Electrostatic Spray Gun

View system integration details

Industrial Ecosystem & Supply Chain Structure

Complementary Systems

Downstream Applications

Specialized Tooling

Application Fit & Sizing Matrix

Operational Limits

pressure:	Up to 100 psi (6.9 bar)
flow rate:	0.1 to 1.5 GPM (0.38 to 5.68 L/min)
temperature:	-20°C to 120°C
slurry concentration:	Up to 30% solids by weight

Media Compatibility

✓ Water-based paints and coatings ✓ Solvent-based industrial coatings ✓ Low-viscosity adhesives and sealants

Unsuitable: Highly abrasive slurries with >30% solids or corrosive chemicals

Sizing Data Required

Required flow rate (GPM/LPM)
Operating pressure (psi/bar)
Fluid viscosity (cP) and solids content

Reliability & Engineering Risk Analysis

Failure Mode & Root Cause

Fatigue cracking

Cause: Cyclic stress from repeated operation, material defects, or stress concentrations at design features like corners or holes.

Corrosion or chemical attack

Cause: Exposure to harsh environments (e.g., moisture, chemicals, salts), inadequate protective coatings, or galvanic corrosion from dissimilar materials.

Maintenance Indicators

Visible cracks, deformation, or discoloration on the gun body/handle surface
Unusual noises (e.g., creaking, cracking) during operation or handling

Engineering Tips

Implement regular non-destructive testing (e.g., dye penetrant or ultrasonic inspection) to detect early-stage cracks or material degradation
Apply appropriate protective coatings or finishes and ensure proper material selection for the operating environment to prevent corrosion and wear

Compliance & Manufacturing Standards

Reference Standards

ISO 9001:2015 Quality Management Systems ANSI/SAAMI Z299.4-2015 Sporting Arms and Ammunition DIN 660-1:2016-03 Firearms - Safety requirements and testing

Manufacturing Precision

Bore alignment: +/-0.05mm
Grip surface flatness: 0.15mm

Quality Inspection

Dimensional verification with CMM
Magnetic particle inspection for cracks

Factories Producing Gun Body/Handle

Manufacturer profiles with relevant production capability in China

Add your factory

Manufacturer listings support early research and capability understanding. They are not certification, ranking, or transaction guarantees.

Procurement Evaluation Criteria

Not customer reviews or live demand data. These dimensions support RFQ preparation and supplier evaluation.

Technical documentation

4/5

Manufacturing capability

4/5

Inspection readiness

5/5

Supplier transparency

3/5

These scores are example evaluation dimensions, not real customer ratings, country-specific buyer feedback, or live inquiry activity.

Supply Chain Compatible Machinery & Devices

Automated Assembly Line System

Integrated production system for sequential component assembly operations

Explore Specs →

Automated Powder Coating System

Integrated industrial system for applying dry powder coatings to metal substrates.

Explore Specs →

Centrifugal Pump Impeller

Rotating component that transfers energy to fluid in centrifugal pumps.

Explore Specs →

High-Precision CNC Laser Cutting Machine

Computer-controlled industrial machine using focused laser beams to cut sheet metal with micron-level accuracy.

Explore Specs →

Frequently Asked Questions

What materials are best for electrostatic spray gun bodies in corrosive environments?

Stainless steel offers superior corrosion resistance for harsh chemical environments, while aluminum alloy provides a good balance of durability and weight for general industrial use.

How does the gun body design affect electrostatic coating efficiency?

Proper housing ensures optimal insulation for high-voltage components, maintains grounding integrity, and provides ergonomic handling for consistent spray patterns and reduced operator fatigue.

Can I replace individual BOM components within the gun body assembly?

Yes, most industrial gun bodies are designed with modular components like trigger assemblies, fluid channels, and insulators that can be serviced or replaced separately to minimize downtime.

Can I contact factories directly on CNFX?

CNFX is an open directory, not a transaction platform. Each factory profile provides direct contact information and production details to help you initiate direct inquiries with Chinese suppliers.

Data Basis

CNFX manufacturer profiles, technical classification, publicly available product information, and ongoing plausibility checks.

Preliminary Technical Classification

This page supports structured research, RFQ preparation, and supplier evaluation. It does not replace buyer-led supplier qualification, standards review, or technical approval.

Request Manufacturing Insight for Gun Body/Handle

Ask for use case, specification boundaries, supplier type, and RFQ preparation information for Gun Body/Handle.

Need to Manufacture Gun Body/Handle?

Compare manufacturer profiles with relevant product and process capability.

Create Manufacturer Profile Contact Us

Previous Product

Guiding Roller Assembly

Next Product

Hammer/Drill Head