Provided is a soldering apparatus including: a furnace body including a processing chamber in which boards are processed; a gasket provided at least to a part of the furnace body, and configured to seal the furnace body; a sealed space isolated from the processing chamber, and defined by the furnace body and the gasket; a gas supply apparatus configured to supply a first gas into the sealed space; and a measuring apparatus configured to measure one of pressure in the sealed space and concentration of a second gas in the sealed space.

Provided is a soldering apparatus including: a furnace body including a processing chamber in which boards are processed; a gasket provided at least to a part of the furnace body, and configured to seal the furnace body; a sealed space isolated from the processing chamber, and defined by the furnace body and the gasket; a gas supply apparatus configured to supply a first gas into the sealed space; and a measuring apparatus configured to measure one of pressure in the sealed space and concentration of a second gas in the sealed space.

A one-piece test apparatus for steel furrings and accessories for building comprises support legs, a rectangular frame on the support legs, and a first hoisting motor, a load-carrying hoisting motor, a second and a third hoisting motor sequentially arranged above the rectangular frame. The overall frame is raised by means of the cooperation of long support legs with the frame, and motors are used for hoisting a wall furring and impact sand bags, so that a tester can mount a dial indicator conveniently and does not need to perform operation and reading by lying on the floor.

A water leakage detection system includes: a solenoid valve that is provided to a water pipe having at least one feed-water valve on a downstream portion of the water pipe, and is configured to be set to at least one stage of a partially-opened state between a fully-closed state and a fully-opened state; a flow meter that is disposed on a downstream side of the solenoid valve; and a controller that controls an opening/closing state of the solenoid valve, and receives information on a flow rate detected by the flow meter. The controller detects water leakage in the water pipe when the solenoid valve is turned to the fully-closed state, and thereafter when the solenoid valve is set to the partially-opened state at a time point when a predetermined time elapses, and thereafter when the flow meter detects a flow rate.

Aspects and techniques of the present disclosure relate to a bleed valve system for bleeding fluid of a first, lower, specific gravity from a fluid of a second, higher, specific gravity, in a fluid system. The techniques can be used to provide a bleed valve system, for a pressurized fluid system, that is not sensitive to rotational orientation around a mounting axis.

Embodiments of the present invention provide a method for detecting and measuring seat leakage in valves during air or gas seat tests. The method involves sealing the valve openings and filling the cavity on one side of the closed valve with water. Pressurized air or gas is introduced to the opposite side of the valve, causing any leaks in the valve closure to generate bubbles that displace water through a conduit, forming drops that are collected in a container. The leakage is quantified by counting the drops or measuring the water volume in a graduated container.

Embodiments of the present invention provide a method for detecting and measuring seat leakage in valves during air or gas seat tests. The method involves sealing the valve openings and filling the cavity on one side of the closed valve with water. Pressurized air or gas is introduced to the opposite side of the valve, causing any leaks in the valve closure to generate bubbles that displace water through a conduit, forming drops that are collected in a container. The leakage is quantified by counting the drops or measuring the water volume in a graduated container.

A shock testing machine including: a test platform for holding an item to be shock tested; a carriage for carrying the test platform and being movable relative to the test platform in a testing direction, the testing direction being a direction of movement of the carriage; one or more rails movably supporting one of the test platform and the carriage; a stop configured to stop the carriage from moving in the testing direction at a predetermined location while allowing the test platform to continue moving in the testing direction past the predetermined location; and a brake configured to decelerate the test platform after the carriage has been stopped by the stop.