Vacuum Medical Equipment Standards

DESCRIPTION Central Medical Gas and Vacuum Systems: Consisting of oxygen, nitrous oxide, nitrogen, compressed air, vacuum and anesthesia evacuation services; complete, ready for operation, including all necessary piping, fittings, valves, cabinets, station outlets and inlets,...

This part of ISO 10079 specifies safety and performance requirements for medical suction equipment powered from a vacuum or positive pressure gas source (see Figure 1). In particular it applies to equipment connected to pipelines and Venturi attachments The...

This part of ISO 10079 specifies safety and performance requirements for medical suction equipment powered from a vacuum or positive pressure gas source generating venturi suction. It applies to equipment connected to medical gas pipeline systems or cylinders and...

This part of ISO 10079 specifies safety and performance requirements for medical suction equipment powered from a vacuum or positive pressure gas source generating venturi suction. It applies to equipment connected to medical gas pipeline systems or cylinders and...

This part of ISO 10079 specifies safety and performance requirements for medical suction equipment powered from a vacuum or pressure source (see Figure 1). In particular it applies to connections for pipelines and Venturi attachments. Suction equipment with components...

This part of ISO 10079 specifies safety and performance requirements for medical suction equipment powered from a vacuum or pressure source (see Figure 1). In particular it applies to connections for pipelines and Venturi attachments. Suction equipment with components...

This part of ISO 10079 specifies safety and performance requirements for medical suction equipment powered from a vacuum or positive pressure gas source generating venturi suction. It applies to equipment connected to medical gas pipeline systems or cylinders and...

This Japanese Industrial Standard specifies requirements for the vacuum bottles comprising a double-wall vacuum glass vessel (hereafter referred to as an inner bottle), and vacuum bottles comprising a double-wall vacuum stainless steel vessel (hereafter referred to as a...

Vacuum technology finds itself in many areas of industry and research. These include materials handling, packaging, gas sampling, filtration, degassing of oils and metals, thin-film coating, electron microscopy, particle acceleration, and impregnation of electrical components. It is vital to...

This part of ISO 10079 specifies basic safety and performance requirements for medical suction equipment powered from a vacuum or positive pressure gas source generating venturi suction. It applies to suction equipment connected to medical gas pipeline systems or...

PURPOSE The purpose of the test specification is to determine a physical test method of vacuum tank applied to GMDAT-made vehicle (passenger car, multi-purpose car, truck and bus), and to specify requirements which are to be satisfied by a vacuum tank.

This book provides a broad perspective of vacuum switchgear drawn from the author's many years of expertise in this field. Allan Greenwood describes the development of the technology from the earliest beginning to the most recent designs now on offer by leading companies around the world....

This Japanese Industrial Standard specifies electric vacuum cleaners for household use which utilizes the back pressure of a blower driven by a motor and which has a rated power consumption of 100 W to 1500 W (hereafter referred to as vacuum cleaners). However, this Standard is not...

The scope of this document is to establish criteria to minimize the hazards of fire, explosion, and electricity in health care facilities providing services to human beings. Annex D of NFPA 99 covers principles of design and use of electrical and electronic appliances generating high-frequency...

Vacuum carburizing of gears has typically been limited to parts with relatively small cross-sections. Most alloys currently in use require oil quenching to achieve adequate surface hardness and core properties in large gear applications. Pit or large batch IQ furnaces with endothermic...

This specification covers the requirements for vacuum deposited cadmium.

This standard covers non-reinforced rubber hoses (hereinafter called "Hoses") for use in the evaporative control system, vacuum system and the like of an automobile. However it does not cover vacuum hoses for brake systems. Remark Reinforced rubber hoses for main passage of fuels...

Providing examples of applications, Power Vacuum Tubes Handbook, Third Edition examines the underlying technology of each type of power vacuum tube device in common use today. The author presents basic principles, reports on new development efforts, and discusses implementation and...

The vacuum brake hose is intended for use in the power braking systems of vehicles or as connections on vacuum lines of vehicles or systems thereof. For the purposes of clearly identifying hose classification and for specification simplification, vacuum brake hose is divided...

This SAE Aerospace Recommended Practice (ARP) addresses the general procedure for the best practices for minimizing uncertainty when calibrating thermal conductivity and cold cathode vacuum gauges, which includes the vacuum sensor(s) and accompanying electronics necessary for a...