| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 137255000 | PLURAL TANKS OR COMPARTMENTS WITH PARALLEL FLOW | 17 |
| 20100193045 | LOW CONSUMPTION AND INTELLIGENT SAFE GAS-SUPPLY SYSTEM FOR GAS TANKS - A low consumption and intelligent safe gas-supply system for gas tanks comprises: at least two gas tanks and gas tank valves installed on them, charge valves with check valve, at least two gas-filled parallel unit pipes, high-pressure sensor, at least two gas-supply parallel unit pipes, gas-supply main conduit, reset pressure sensor, at least two solenoid valves with check valve, and electronic control module ECM. The invention has the characteristics such as the gas tanks supply gas in sequence, intelligent control, security and reliability for use, low consumption, high display precision for gas volume, decompression transfinite alarm and convenience for installing, use and maintenance etc., and it can be used in the vehicle hydrogen supply system in the fuel cell vehicles or the vehicle compressed natural gas-supply system in the natural gas vehicles, and also the high-pressure hydrogen or natural gas-supply system for gas tanks on the ground. | 08-05-2010 |
| 20100263739 | GTank-C90 Auxiliary Fuel Transfer System - The ‘GTank-C90 Auxiliary Fuel Transfer System’ consists of an auxiliary fuel transfer cell that connects to and becomes an integral part of the extended fuel storage of the motorcycle increasing its capacity and riding range. The ‘GTank-C90 Auxiliary Fuel Transfer System’ allows the motorcycle operator to transfer fuel from the auxiliary fuel transfer cell to the stock fuel tank by activating a momentary 12V toggle switch. This fuel transfer is designed to be performed during normal operation of the ‘motorcycle’ without disruption of use or adversely affecting the operation of the motorcycle in any way. | 10-21-2010 |
| 20100269915 | Fuel Tank System - A fuel tank system for a vehicle ( | 10-28-2010 |
| 20110315236 | VEHICLE WASTEWATER DRAINAGE SYSTEM - A wastewater drainage system for a vehicle, such as a recreational vehicle (RV), is provided. The system includes a pump, such as a macerator pump, in selective fluid communication with the black water tank and the gray water tank, and a drainage hose connected to the exit end of the pump for directing wastewater to a wastewater storage area. The system allows the RV user to clean the black water tank using water from the gray water tank, and allows gray water to be stored in the black water tank so that less time is spent draining the tanks and more time is spent enjoying the RV experience. | 12-29-2011 |
| 20130025701 | METHOD OF MANUFACTURING FLOW PATH MEMBER, FLOW PATH MEMBER, LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS - A method of manufacturing a flow path member includes inserting the first flow path member into each concave portion of the second flow path member and welding the first flow path member and the second flow path member in a circumferential direction of a region where the first flow path and the second flow path communicates each other; and providing two or more injecting portions which are provided with a gap wider than a gap between a wall surface of the concave portion which faces the first flow path member and a circumference surface of the first flow path member inserted into each concave portion which faces the wall surface, communicate with each concave portion, and are opened to the same side as the concave portion to have a concave shape to each concave portion in the second flow path member. | 01-31-2013 |
| 20130081708 | BAFFLE FOR HYDRAULIC RESERVOIR - An anti-vibration system for a fluid reservoir. The system includes a baffle disposed within the fluid reservoir. The baffle includes a mounting mechanism and one or more apertures. The mounting mechanism is adapted to mount the baffle within the reservoir. In addition, and a reservoir cover, enclosing the fluid reservoir, includes receiving fixtures to receive the mounting mechanism. | 04-04-2013 |
| 20140305515 | LIQUID REPLENISHING DEVICE - The present invention provides a liquid replenishing device comprising a liquid storage tank, a chemical liquid supply pipeline, an ultrapure water supply pipeline, an ultrapure water quantitative supplement pipeline and a circulating pipeline. The chemical liquid supply pipeline supplies chemical liquids to the liquid storage tank. The ultrapure water supply pipeline supplies ultrapure water to the liquid storage tank. The ultrapure water quantitative supplement pipeline quantitatively replenishes ultrapure water to the liquid storage tank. One end of the circulating pipeline is connected with the outlet of the liquid storage tank, the other end of the circulating pipeline is connected with the inlet of the liquid storage tank. | 10-16-2014 |
| 20150308620 | GAS SUPPLY DEVICE - Gas supply device comprising a frame ( | 10-29-2015 |
| 137256000 | Sequentially filled and emptied (e.g., holding type) | 1 |
| 137257000 | With relative rotation of tank group and filling head | 1 |
| 20120055564 | DOUBLE GLAZING WITH A HIGH PHOTOVOLTAIC OUTPUT - The present disclosure relates to a rack with double photovoltaic glazing including a frame with a rabbet, the rabbet containing at least two substantially parallel transparent sheets, i.e. a front sheet intended for receiving sunlight and a rear sheet, wherein the double-glazed rack includes photovoltaic cells located at the back of the rabbet and a coating made of a material forming a cascade of light. | 03-08-2012 |
| 137260000 | Battery or electrolytic cell replenishment | 4 |
| 20110108134 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY WITH FILLING FUNCTION, AND NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY AND NON-AQUEOUS ELECTROLYTE FILLING DEVICE USED THEREFOR - A secondary battery with filling function has a corresponding secondary battery and a filling device. The corresponding secondary battery has a housing defining an accommodation chamber for accommodating a power generation portion, an opening portion formed in the housing, a stopper body closing the opening portion, and a coupling portion formed around the opening portion. The filling device has a cap body forming a sealed space around the opening portion by covering the opening portion and the stopper body closing the opening portion as a result of coupling to the coupling portion, an attachment and removal portion for attaching and removing the stopper body to/from the opening portion in the sealed space, and a filling portion for filling the inside of the housing with a non-aqueous electrolyte through the opened opening portion. | 05-12-2011 |
| 20120125447 | LITHIUM ION BATTERY MODULE - A lithium-ion battery module includes a housing having a plurality of partitions configured to define a plurality of compartments within the housing. The battery module also includes a lithium-ion cell element provided in each of the compartments of the housing. The battery module further includes a cover coupled to the housing and configured to route electrolyte into each of the compartments. The cover is also configured to seal the compartments of the housing. | 05-24-2012 |
| 20140060666 | INTERNALLY MANIFOLDED FLOW CELL FOR AN ALL-IRON HYBRID FLOW BATTERY - In one example, a system for a flow cell for a flow battery, comprising: a first flow field; and a polymeric frame, comprising: a top face; a bottom face, opposite the top face; a first side; a second side, opposite the first side; a first electrolyte inlet located on the top face and the first side of the polymeric frame; a first electrolyte outlet located on the top face and the second side of the polymeric frame; a first electrolyte inlet flow path located within the polymeric frame and coupled to the first electrolyte inlet; and a first electrolyte outlet flow path located within the polymeric frame and coupled to the first electrolyte outlet. In this way, shunt currents may be minimized by increasing the length and/or reducing the cross-sectional area of the electrolyte inlet and electrolyte outlet flow paths. | 03-06-2014 |
| 20160167521 | LEAK HYDROGEN ABSORBING DEVICE, HYDROGEN ENERGY UTILIZATION SYSTEM AND LEAK HYDROGEN ABSORBING METHOD | 06-16-2016 |
| 137263000 | Tank type manifold (i.e., one tank supplies or receives from at least two others) | 1 |
| 20140130896 | PRESSURE ACCUMULATOR - A pressurized storage tank arrangement having at least two pressurized storage tanks, the at least two pressurized storage tanks being configured for connection to one another in a fluid-conducting manner via a connecting device. The at least two pressurized storage tanks are configured for connection to the connecting device in a fluid-conducting manner at a first and a second connecting section. | 05-15-2014 |
| 137265000 | With cross connecting passage | 1 |
| 20190143810 | FUELING SYSTEM | 05-16-2019 |
| 137266000 | With manifold or grouped outlets | 2 |
| 20080257417 | Pipe Branching Arrangement - A pipe branching arrangement, in particular for a tank farm system, comprises an at least approximately vertically extending hollow body which has at least one lateral connector, further comprising at least one mixproof valve which sits on the connector and produces a closable connection between the hollow body and at least one pipeline. The valve has two closing members, between which there is a leakage space which has a leakage outlet opening, the leakage space having a circumferential wall which extends from an inlet on the connector side to the leakage outlet opening on the outlet side, which is at a distance from the inlet. The circumferential wall has a decline on the gravitational force side of the leakage space in direction to the leakage outlet opening. | 10-23-2008 |
| 137267000 | Tank truck type | 1 |
| 20140373940 | FLUID DRAIN MANIFOLD - A fluid drain manifold is disclosed. The fluid drain manifold can include a manifold body and a plurality of hollow interior channels extending through an interior of the manifold body between an upper end and a bottom end of the manifold body. The plurality of hollow interior channels can include a plurality of individual drain line channels and an outlet channel. The outlet channel can be disposed within the interior of the manifold body, and the outlet channel can include an upper end and an open lower, outlet end. The open lower outlet end of the outlet channel can be positioned at the bottom end of the manifold body. Each of the plurality of individual drain line channels can include an open upper, inlet end at the upper end of the manifold body and an open lower, outlet end fluidly connected to the outlet channel. | 12-25-2014 |
