DC Motor Carbon Brush Holder End Cover Repair Parts for 895, 875 and 887 Models

This carbon brush holder end cover serves as a direct replacement component for 895, 875, and 887 model DC motors, particularly those found in various screwdriver and small power tool applications. Weighing just 12g, this repair part provides a targeted solution when motor components fail or require maintenance, avoiding the need for complete motor replacement. The metal graphite construction ensures appropriate electrical conductivity for the brush contact function within compatible motor assemblies. Each unit is supplied individually, making it suitable for both professional repair scenarios and DIY maintenance where specific model compatibility is confirmed.

Features and Construction

This repair part is designed with specific compatibility and material properties that make it suitable for targeted motor repair applications.

Material and Build

The component is constructed from metal graphite material, which combines metallic strength with graphite's conductive properties. This material choice is practical for carbon brush holder applications where electrical contact must be maintained while withstanding mechanical wear within the motor assembly. The end cover design integrates the brush holder function, creating a single replacement unit that addresses both structural and electrical contact needs in compatible motor models.

Size and Practical Fit

With a weight of 12g, this component is lightweight yet substantial enough to function as part of a motor assembly. The specific dimensions are engineered to match the original components in 895, 875, and 887 motor models, ensuring proper fit and alignment during installation. This precise compatibility makes it a practical choice for restoring function to tools where motor brush or end cover failure has occurred, particularly in screwdriver applications where these motor models are commonly used.

Uses and Placement

This repair part has specific applications based on its design parameters and material construction.

Event or Professional Use

For professional repair technicians and maintenance workshops, this component provides a cost-effective solution for motor refurbishment. The model-specific compatibility with 895, 875, and 887 motors means it can be stocked as part of a targeted repair inventory for tools using these motor types. The metal graphite construction offers the necessary durability for professional use scenarios where tools may see regular operation and require reliable component replacement to maintain performance standards.

Everyday Home Use

DIY enthusiasts and home workshop users can employ this part to extend the life of compatible power tools. When a screwdriver or small motor fails due to brush or end cover issues, this replacement component allows for targeted repair rather than tool replacement. The single-unit packaging means users purchase only what they need for a specific repair job, making it a practical choice for home maintenance where tool longevity and cost-effective repairs are priorities.

Benefits and Buying Value

This component offers specific advantages based on its design purpose and material properties.

Reuse and Low Maintenance

By providing a targeted replacement part, this component supports the reuse and repair of existing tools rather than disposal. The metal graphite material is suited to the electrical contact requirements of motor brush applications, potentially extending the functional life of compatible tools. This approach reduces waste and can be more economical than complete motor or tool replacement when only specific components have failed.

Why Choose This Product

This product is specifically designed for 895, 875, and 887 motor models, ensuring compatibility that generic components might not provide. The metal graphite construction addresses both the structural and electrical requirements of a brush holder end cover in these applications. For users facing motor issues in compatible tools, this component represents a practical solution that targets the specific failure point while maintaining the original motor design parameters and performance characteristics.