Infusion Stand Clamp

Name: Infusion Stand Clamp | IV Pole Mounting & Locking Units - Frigate
Price: 249.00 USD
Availability: InStock

The Infusion Stand Clamp maintains structural performance under variable static and cyclic loading typical in mobile IV assemblies. Its clamping interface employs a precision-machined radial contact surface that distributes load uniformly, minimizing stress risers that can initiate fatigue cracks. Analytical testing confirms the clamp resists micro-movements and holds axial retention within tight tolerances during continuous dynamic pole displacement scenarios.

Material Specification

Aluminum 6061-T6 (AMS 4025), Stainless Steel 316L (ASTM A276), Zinc Alloy (ASTM B86)

Dimensional Tolerance

±0.1mm (Body), ±0.05mm (Critical Features), Clamp Gap – ±0.2mm

Surface Finish

±0.1mm (Body), ±0.05mm (Critical Features), Clamp Gap – ±0.2mm

Thread Specifications

M8-M12 (Metric Coarse), 5/16″-18 UNC (Imperial), Thread Class – 2A/2B

Heat Treatment

T6 Temper (Aluminum), Annealed (Stainless Steel), Stress Relieved (Zinc Alloy)

Product Description

The Infusion Stand Clamp is designed to remain secure under vibration-induced stresses encountered in portable infusion systems and mobile transport. A dual-surface micro-serrated contact design provides mechanical damping and prevents self-loosening due to harmonic excitation. This design ensures positional stability without over-tightening, protecting both the clamp and the host structure from long-term wear or misalignment.

Coating

Anodized (Al, MIL-A-8625), Passivated (SS, ASTM A967), Powder Coated (Optional)

Certification Standard

ISO 13485, IEC 60601-1, ASTM F899, RoHS Compliant

Load-Bearing/Strength

Static Load – 500N, Dynamic Load – 200N (10⁶ cycles), Clamping Force – 50-150N

Assembly Tolerances

±0.5° Angular Misalignment, 0.2mm Max Play When Assembled

Inspection Method

100% Visual (10x Magnification), Dimensional Check (10% Lot Sampling), Torque Test (5% Sampling)

Technical Advantages

The Infusion Stand Clamp features a calibrated cam-lock system with a built-in mechanical stop, enabling consistent clamping force regardless of operator variability. Repeatability of applied torque is maintained within a 5% deviation, which is critical for applications requiring standardization across shift changes and procedural setups. The mechanism ensures secure engagement with tactile end-point confirmation, reducing improper installations.

The Infusion Stand Clamp accommodates cylindrical poles with diameters ranging from 16 mm to 32 mm through a self-aligning interface. This design applies radially symmetric forces, maintaining concentric alignment to prevent eccentric loading or stress deformation on the pole. The universal fit reduces inventory requirements and supports inter-compatibility across diverse infusion and monitoring systems.

Let's Get Started

Need reliable Machining for your next project? Get in touch with us today, and we’ll help you find exactly what you need!

Industry Applications

Intensive Care Units (ICUs)

Supports multi-infusion systems with vibration-resistant clamping on mobile poles for critical fluid delivery under dynamic patient conditions.

Emergency Departments

Enables rapid, tool-free attachment of IV poles during high-throughput trauma response requiring quick stabilization of infusion hardware.

Surgical Operating Rooms

Maintains secure anchoring of anesthesia poles and drug infusion lines during patient repositioning and equipment drape reconfiguration.

Oncology Infusion Centers

Holds multi-line infusion setups securely for long-duration chemotherapeutic delivery requiring absolute positional stability and reusability.

Pediatric Care Units

Accommodates variable pole diameters on height-adjustable stands, ensuring safe mounting without over-compression of lightweight mobile systems.

Ambulatory Care Facilities

Used in portable infusion assemblies for patients in motion, preventing loosening during transport or ambulatory infusion therapy.

Dimensional Stability and Creep Resistance at Operating Load

To resist long-term deformation under sustained loading, the Infusion Stand Clamp utilizes a glass-fiber-reinforced thermoplastic composite with high creep resistance. Mechanical tests under ISO 899 conditions show minimal dimensional shift after prolonged static stress, maintaining less than 0.03 mm of deformation over 10,000 hours at 50% of rated load. This ensures reliable structural performance over extended clinical use cycles.

The Infusion Stand Clamp is constructed with a combination of passivated stainless steel components and solvent-resistant engineering polymers. All materials meet compatibility standards for repeated exposure to alcohol-based and oxidizing hospital disinfectants. Resistance to surface degradation and mechanical property loss has been validated through 1,000-cycle immersion testing per ISO 175 and ASTM G31 protocols.

Having Doubts? Our FAQ

Check all our Frequently Asked Question

How does Frigate ensure the durability of the Infusion Stand Clamp under continuous clinical use?

Frigate manufactures the clamp using glass-reinforced polyamide and passivated stainless steel components for enhanced mechanical strength. The materials are tested for creep resistance and chemical stability under hospital disinfectants. Frigate conducts cyclic load testing simulating real-world operational stresses to verify long-term durability. This guarantees reliable performance throughout extended clinical service.

What design features does Frigate incorporate to prevent accidental release of the Infusion Stand Clamp?

Frigate integrates a dual-locking mechanism consisting of a primary cam lock and a secondary safety latch. The secondary latch functions independently to secure the clamp even if the primary lock is unintentionally released. This redundancy complies with ISO 80369-7 safety guidelines for critical care equipment. It significantly reduces risk during transport and patient movement.

How does Frigate’s Infusion Stand Clamp accommodate variability in pole diameters across different medical equipment?

The clamp uses a self-centering gripping system engineered to handle poles from 16 mm to 32 mm diameter without compromising clamp force. Frigate’s precision machining ensures even pressure distribution to prevent pole deformation or slippage. This design flexibility reduces the need for multiple clamp variants. It simplifies inventory management for healthcare providers.

What measures does Frigate take to ensure the clamp’s resistance to hospital-grade disinfectants?

Frigate selects polymers and stainless steel alloys tested according to ISO 175 and ASTM G31 for chemical resistance. The clamp’s surface finishes withstand repeated exposure to alcohol, peroxide, and quaternary ammonium compounds without degradation. Frigate performs accelerated aging tests to confirm material integrity post-disinfection cycles. This maintains clamp functionality and appearance over time.

How does Frigate verify consistent clamp engagement force regardless of operator variability?

Frigate incorporates a calibrated cam-actuation mechanism with a defined mechanical stop that limits applied torque. This ensures clamp force varies less than ±5%, independent of user strength or technique. The design also provides tactile feedback to confirm full engagement. Such control reduces installation errors and enhances safety in clinical workflows.

Get Clarity with Our Manufacturing Insights

Comprehensive Aluminum Gravity Die Casting Services

How can industries ensure the production of high-quality aluminum components? What strategies address...

The Benefits of High-Speed CNC Machining for Rapid Prototyping

Rapid prototyping is critical in product development, yet companies often face significant roadblocks....

Best CNC Machining Suppliers for Just-In-Time Delivery Solutions

Modern production systems demand rapid throughput, minimal inventory, and agile vendor coordination....

Top Forging Trends Driving Manufacturing Innovation

Are you struggling with rising production costs, quality concerns, or delayed deliveries in your manufacturing...

Manufacturing as a Service Explained and Why It Is the Future

Modern manufacturing demands high efficiency, flexibility, and cost optimization, yet traditional manufacturing...

How to Avoid Costly Machining Errors in Robotics and Automation Parts?

Precision matters. The smallest deviation in machined components—like actuator frames, gear housings,...

Overcoming Common HDPE Molding Challenges for Durable Products

Have you ever experienced variability in the mechanical properties or dimensional stability of your HDPE...

Improving Lead Time and Delivery Performance in Contract Manufacturing

Imagine you’re responsible for getting a product to market, but delays keep piling up. You face...

How Welding Cables Ensure Power and Safety in High-Temperature Operations

High-temperature environments in aerospace, automotive, and heavy manufacturing introduce complex challenges....

High-Speed CNC Machining Services with Production – How to Scale Up Fast

Manufacturers today face growing pressure to deliver parts faster without compromising on quality. Industries...

We'd love to Manufacture for you!

Submit the form below and our representative will be in touch shortly.

LOCATIONS

Registered Office

10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.

Operations Office

9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ㅤ

Automotive OEM & Aftermarket

Aerospace & Defense

Electronics Manufacturing

Robotics & Automation Systems

Consumer Electronics

Medical Devices

Renewable Energy

Oil & Gas Equipment

Marine & Shipbuilding