Precision Optics Manufacturer‌

As a specialized producer of optical components, we provide end-to-end solutions from design to volume production. Our ISO 9001 certified cleanrooms deliver optics compliant with MIL-PRF-13830 standards.

Custom Optics Industry Parts and Products

Beam Expander Housing

The beam expander housing is usually made of 6061-T6 aluminum alloy, oxygen-free copper (TU1) or 304 stainless steel, and is manufactured by precision turning, five-axis CNC machining or electroforming.

Filter Frame System

The filter frame system is usually made of 304/316 stainless steel, anodized aluminum (6063) or glass fiber reinforced PP, and is manufactured by laser cutting, bending, extrusion or injection molding.

Camera Frame

The camera frame is usually made of magnesium-aluminum alloy , carbon fiber composite material or high-strength engineering plastic (such as PA66) and is manufactured by precision die-casting, CNC machining or injection molding.

Camera Bracket

The camera bracket is usually made of magnesium-aluminum alloy (AZ91D), carbon fiber composite material or high-strength engineering plastic and is manufactured by precision die-casting, CNC machining or injection molding.

Lens Barrel

The lens barrel is usually made of 6061-T651 aluminum alloy, oxygen-free copper (TU1) or Invar 36, and is manufactured by five-axis precision turning and milling, super precision diamond turning (SPDT) or hot isostatic pressing (HIP).

Microscope Focus Ring

Microscope focusing rings are usually made of brass (H59/H62), aluminum alloy (6061) or stainless steel (304), and are formed by precision CNC turning, knurling or powder metallurgy pressing

Projector BracketInternal Frame

The internal frame of the projector bracket is usually made of high-strength aluminum alloy (6061-T6), engineering plastic (PC+ABS) or magnesium alloy (AZ91D), and is processed by precision die casting, CNC milling or injection molding

Mount Frame

The mounting frame is usually made of Q235 carbon steel, 6061 aluminum alloy or reinforced nylon (PA66+GF30), and is processed by laser cutting, bending, die casting or injection molding

Why Choose Bright Future for the Optics?

Submicron ultra-high precision processing capability

We is equipped with five-axis ultra-precision CNC machine tools, with a processing accuracy of up to ±0.002mm and a surface roughness of Ra≤0.05μm, which perfectly meets the stringent requirements of key components such as optical lens mounts and laser cavities for dimensional stability and surface quality, ensuring the imaging quality of optical systems.

Expertise in complex optical surface processing

With its unique free-form surface processing technology, it can accurately process complex optical structures such as aspheric surfaces and diffractive optical elements, with a surface shape accuracy better than λ/10 (@632.8nm), providing key manufacturing support for high-end optical systems.

Optical-grade material processing capabilities

Specialized in the precision processing of low thermal expansion coefficient materials such as aluminum alloy (6061-T6), oxygen-free copper, and invar, and through special stress relief processes, ensures the dimensional stability of optical components in temperature-changing environments.

Clean processing and pollution prevention control

Using Class 100 clean workshop and oil-free cutting process, combined with plasma cleaning post-processing, the surface cleanliness of parts reaches optical grade standard (≤0.01mg/cm²), eliminating the risk of contaminating the optical system.

Optical system integration solution

Provide one-stop service from optical structural parts processing to system assembly, including: Precision processing of optical mechanical parts Optical adjustment reference surface processing System integration auxiliary debugging

Successful cases in the optical industry

Services have been provided to many leading optical companies: Processing projection lens bracket for a photolithography machine manufacturer, thermal deformation coefficient <0.001mm/℃ Mass production of astronomical telescope primary mirror support structure, cumulative delivery of 500 sets Provide optical mechanical parts for laser radar companies, with a yield rate of 99.99%

Optics

Provide core optical component solutions for laser equipment, imaging systems, optoelectronic instruments, etc.

Focusing lens seat

Lens aluminum alloy barrel

Fiber coupler precision bracket

Infrared thermal imager housing

Spectrometer base

Projector reflector bowl assembly

Detection adjustment frame

LiDAR rotation scanning part

Industries We Power

Precision manufacturing solutions engineered for the world’s most demanding industries—from aerospace and medical to robotics, automation, and industrial equipment.

Automotive

Communication

Medical Devices

Industrial Equipment

Aerospace

Electronics

Robotics

Automation

Parts Delivered Into Supply Chains Including