The present invention provides a thermal management system of a power battery pack, including a heating branch, a cooling branch and a battery pack pipeline, the heating branch and the cooling branch are connected with the battery pack pipeline and are arranged in parallel and configured to enable switching, a first heat exchanger for absorbing heat from a cooling liquid pipe of an outer high-temperature device is arranged on the heating branch. The thermal management system of the battery pack provided by the present invention uses waste heat of the cooling liquid of other high-temperature devices on the electric vehicle to heat the battery pack, so as to avoid the problem of electric power consuming and cruising distance reduction. Meanwhile improving cooling efficiency of high-temperature devices, and then improve comprehensive energy utilization efficiency, and improve working condition of the whole vehicle, thereby improving comprehensive performance of the electric vehicle.

The disclosure discloses a gas valve and an oven, where the gas valve includes an intake valve assembly and at least two outlet valve assemblies, the intake valve assembly includes an intake valve body and an intake valve core, the intake valve body is internally provided with a gas inlet, the intake valve core is configured to control the gas inlet to be opened or closed, each outlet valve assembly includes an outlet valve body and an outlet valve core, each outlet valve body is internally provided with a gas outlet, the gas outlet is respectively communicated with the gas inlet, and the outlet valve core is respectively configured to control the corresponding gas outlet to be opened or closed.

One-to-four solenoid valve tube control structure, comprising a five-way pipe, wherein the five-way pipe comprises a water inlet pipe, first water outlets provided on both sides of one end of the water inlet pipe, and water distribution pipes provided on both sides of the water inlet pipe; the water distribution pipe is located above the first water outlet, and a top of the first water outlet is provided with a valve cavity eccentrically arranged therewith; an inside of the water inlet pipe is provided with a separating rib. The water inlet pipe is directly connected to the two first water outlets, which maximizes the use of the five-way pipe body space, meets the daily use needs of users, reduces the size of the product, saves mold and production costs, and the separating rib separates the water flow into two streams.

The present invention relates to an assembly for a turbomachine (1) comprising: a compressor (30), an isochoric combustion chamber (7), an isobaric combustion chamber (40), and a turbine (50).

The present invention is a plasma processing apparatus that includes a processing chamber where plasma processing is performed on a sample, a radio frequency power supply that supplies radio frequency power to generate plasma, a sample stage on which the sample is placed, and a gas supply unit that supplies a gas to the processing chamber. The gas supply unit includes a first pipe that supplies a first gas as a gas for etching process to the processing chamber, a second pipe that supplies a second gas as a gas for etching process to the processing chamber, and a third pipe through which a third gas as a gas for deposition process flows. The third pipe is coupled to the second pipe. A fourth valve is arranged on the second pipe. The fourth valve prevents the third gas from flowing in a direction toward a supply source of the second gas.

A solenoid driven actuator system includes a first solenoid having at least one pressure input and a pressure outlet downstream from the at least one pressure input. A second solenoid has at least one pressure input and a pressure outlet downstream from the at least one pressure input. A transfer solenoid operatively coupled to the first and second solenoids. An actuator valve operatively coupled to a pressure outlet of the transfer solenoid.

A suspension system for a land vehicle is provided with at least one actuator connected to a chassis and an axle of a land vehicle spaced apart from a pivotal connection of the axle. A suspension circuit is in cooperation with the at least one actuator. A controller is in operable communication with the suspension circuit and is programmed to receive input indicative of a travel speed of the land vehicle. The suspension circuit is closed at a low speed travel range to permit the axle to pivot in response to variations in an underlying support surface. The suspension circuit is opened to permit selective actuation of the at least one actuator at a higher speed travel range in response to variations in the underlying support surface.

A system can include a solenoid manifold including a plurality of solenoid valves to control fluid flow between a tube and a plurality of nozzles, wherein one end of the tube is connected to a pump and the other end of the tube is connected to an inlet of the solenoid manifold; and a controller programmed to determine whether at least one solenoid valve of the plurality of solenoid valves is incorrectly in an open position based on pressure measurements representing a fluid pressure within the tube.

The operational performance of pumps can be improved when pumping liquids with at least 10 vol. % gas volume fraction (GVF) as found in many oil fields, wherein wells produce mixtures of gas and oil in varying proportions. An increase in the GVF that would have led to slugging in the flow, degrading the performance of pump in multiphase flow loop, and would have necessitated a check valve at each fluid stream to avoid flow reversal, can be overcome by a multiphase flow loop including a solenoid valve on the gas stream, which maintains the same intake gas pressure as that of oil/liquid pressure during the experiments. By testing pumps at more accurate GVFs, pump performance can be better assessed, resulting in reduced power consumption and increased efficiency.

This invention shows a type of dual-sensing basin faucet, includes the shell of faucet, the shell of this faucet is setting a valve seat with adjustment switch. The top of valve seat is connected to the cavity of water outlet and cavity of solenoid valve. There is the outlet tube inside the cavity of water outlet and a solenoid valve inside the cavity of solenoid valve. Both outlet tube and solenoid valve are setting inside the shell of this faucet. There is circuit board setting on the top of outlet tube, and the circuit board is electrically connected with the solenoid valve. There is a support plate that is setting above the circuit board and is firmly connected with the circuit board.