Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

69 results about "Battery sizing" patented technology

Detection, mark-wrapping, measurement automatic production line and process flow of mobile phone cell

The invention relates to a mobile phone detecting, mark wrapping, measuring automatic product line and technical flow. The product line comprises an orderly arranged mobile phone inside parameter automatic detector, a mobile phone automatic mark wrapper and a mobile phone cell size difference automatic measurer. A discharge port end of the mobile phone inside parameter automatic detector is connected with an inlet point end of the mobile phone automatic mark wrapper. A discharge port end of the mobile phone automatic mark wrapper is connected with an inlet point end of the mobile phone cell size difference automatic measurer that is connected electrically. In the invention, the cell feed in, position, clamp detection, mark wrapping and difference measurement after the mark wrapping are completed automatically. The mark wrapping effect is good, stable, and strongly reliable. The invention is simple in operation, high in efficiency and automatic level, which reduces the product manufacturing cost greatly and improves product quality and manufacturing speed, work efficiency as well as lightens labor intensity of the workers and improves labor capacity.
Owner:GRAND TECH SHENZHEN

Analog simulation method for automobile storage battery sizing

ActiveCN106980725ASolve frequent power lossSolve the difficulty of starting the vehicleElectrical testingDesign optimisation/simulationElectrical batteryCharge discharge
The invention relates to an analog simulation method for automobile storage battery sizing. The method comprises the steps of (1) dividing a driving cycle into three working conditions including a parking working condition, a starting working condition and a driving working condition, and calculating charge-discharge situations and electricity demand situations of a storage battery under different working conditions; (2) inputting a rated capacity and an initial charge state of the selected battery, and simulating under NEDC (New European Driving Cycle) working conditions through a MATLAB (matrix laboratory); and (3) carrying out multiple cycles to obtain the capacity of the storage battery after one and a half years. According to the analog simulation method, all electricity demand working conditions, including the starting working condition, the driving working condition and the parking working condition of an automobile in the use process are fully considered; meanwhile, the influence of environmental factors is also considered, starting in the low temperature environment is added into simulation calculation so that a calculation result is accurate; in addition, a simulation process simulates the use condition of the storage battery in the whole life cycle, and one-sidedness caused by only consideration of a new battery is avoided. Meanwhile, the problems of frequent lack of electricity and difficult starting of the automobile and shortened life of the storage battery caused by improper storage battery sizing and cost waste caused by excessive battery capacity selection can be solved from the technical angle.
Owner:CHERY AUTOMOBILE CO LTD

Method for dispersing micro-scale and nano-scale electrode materials

The invention discloses a method for dispersing micro-scale and nano-scale electrode materials, which is suitable for a battery sizing agent consisting of micro-scale and nano-scale active substances, a conductive agent, an adhesive and a solvent. The method comprises the following step of: adding an organic acid additive decomposed at the temperature of 150 DEG C into the battery sizing agent in an amount of 0.1-8 percent of the total weight of the micro-scale and nano-scale active substances, the conductive agent and the adhesive. The method for dispersing the micro-scale and nano-scale electrode materials by taking the organic acid additive as a surfactant is adopted, so that micro-scale and nano-scale active substances can be dispersed more uniformly and stably, and the sizing agent is prevented from settling and can be decomposed into carbon dioxide and water at the temperature of about 150 DEG C for volatilizing, and therefore the battery capacity is increased effectively, the primary efficiency of the battery is improved and the cycle life of the battery is prolonged; the surface tension of the active substances can be reduced, the using amount of the solvent is reduced under the same sizing agent viscosity condition, and the cost is saved; and the adhesive properties of a coated electrode and a current collector can be enhanced, and the cycle life of the battery is prolonged.
Owner:RISESUN MENGGULI NEW ENERGY SCIENCE & TECHNOLOGY CO LTD

Core of cylindrical battery and method for assembling the core into the battery case

The invention provides an electric core of a cylindrical battery. The electric core comprises a roll core and a core axis penetrating the roll core. Positive and negative pole pieces and a diaphragm are wound on the core axis, and the two ends of the core axis are exposed out of the two end surfaces of the roll core. The invention further provides a method for mounting the electric core into the housing of the battery. By adopting the electric core of the cylindrical battery and the method for mounting the electric core into the housing of the battery, the core axis is fixed on the end cover or at the bottom part of the housing when being assembled; the relative fixing among the end cover, the housing, the core axis and the roll core provides the possibility of forming reliable connection between the positive pole piece and the negative pole piece and the positive electrode and the negative electrode of the battery; the center of gravity of the whole roll core is on the core axis; the core axis is sleeved on the end cover or in the center of the bottom part of the housing of the battery, the center of gravity of the battery is positioned in the geometric center of the outline thereof, and the structure is reasonable. The electric core of the cylindrical battery and the method for mounting the electric core into the housing of the battery are especially suitable for batteries with larger sizes or with heavier roll cores such as power batteries.
Owner:SHENZHEN BAK BATTERY CO LTD

Method for manufacturing lithium-ion batteries

The invention discloses a method for manufacturing lithium-ion batteries, which comprises a battery-precharging process. The method is characterized in that the battery-precharging process is realizedin the following way: using a precharging device to precharge a battery and using a vacuumizing device to vacuumize the inside of the battery at the same time, wherein the pressure in the vacuumizingprocess is set to be between 0.03 and 0.08 MPa; the precharging capacity is set to be 0.15 to 1 times of nominal capacity; and the precharging current is set to be between 0.05 and 1 C. The method adopting vacuum precharging can quickly and thoroughly discharge gas produced in the precharging process inside the battery and eliminate insulation region produced by the gas, thereby improving the capacity exerting-cycling performance of the battery, effectively eliminating or reducing lithium-separation situation of pole pieces, guaranteeing the qualified size of the battery and shortening precharging time. In addition, relative to the prior method, the method can leave out the processes of plugging cotton and covering rubber plugs.
Owner:SHENZHEN BAK BATTERY CO LTD

Design method of panel structure of double-sided solar battery tracking bracket

InactiveCN108011574AIncrease the amount of solar radiationIncrease radiation dosePhotovoltaic supportsEngineeringSolar battery
The invention discloses a design method of a double-sided solar battery bracket panel which is applied to a tracking bracket and is added with reflector structures. Based on the power generation performance of front and back sides of a double-sided solar battery and the optical principle, the invention provides a design method of a panel structure of a double-sided solar battery tracking bracket.The method comprises the steps of (1) analyzing a general structure of a designed bracket panel and local latitude and longitude, sunshine and climate conditions, (2) determining the size data of thedouble-sided battery and the distance between bracket panel frames, and designing initial sizes and inclination angles of two reflectors at left and right sides of the double-sided solar battery, and(3) designing certain size margins for the two reflectors with the consideration of the change of the angle between direct sunlight and the double-sided battery to improve the amount of radiation received by the battery, and finally determining the size data of the whole bracket panel. According to the method, the overall structure of the bracket panel can be flexibly designed according to a localenvironment, the size of the double-sided battery and the like, and the amount of radiation received by the double-sided battery can be significantly increased.
Owner:STATE GRID HUBEI ELECTRIC POWER COMPANY +3

Square lithium ion battery

The invention provides a square lithium ion battery, the square lithium ion battery comprises a square shell and a cover plate, the square shell is internally provided with at least one roll core, the roll core comprises a positive plate and a negative plate which are arranged at two sides of a diaphragm, the positive plate comprises a positive current collector, and the negative plate comprises a negative current collector. The positive plate comprises a positive current collector and a positive active material coating area at least partially covering one surface of the positive current collector, and the negative plate comprises a negative current collector and a negative active material coating area at least partially covering one surface of the negative current collector; the square lithium ion battery meets the following conditions: (T / (30 * n)) 0.5 / V * Sc is greater than or equal to 3.0 and less than or equal to 5.0; according to the square lithium ion battery provided by the invention, the number of the roll cores and the coating area of the positive and negative active materials can be flexibly designed, the selection of the number of the roll cores and the coating area of the positive active materials and the size of the battery are limited, and the space utilization rate of the roll cores is improved, so that the mass energy density of the battery is improved; design is reasonable, operability is high, and popularization is facilitated.
Owner:SHANGHAI RUIPU ENERGY CO LTD

Rapid taking and placing device for power battery module

The invention relates to the technical field of power batteries, and discloses a rapid taking and placing device for a power battery module. The device comprises a mounting plate, a working mechanism is arranged on the rear portion of the mounting plate, a limiting mechanism is arranged on the front portion of the mounting plate, and an adjusting mechanism is arranged on the surface of the limiting mechanism. According to the rapid taking and placing device for the power battery module, through cooperative use of the working mechanism, the limiting mechanism and the adjusting mechanism, a battery can be straightened while the device clamps the battery, so the battery can be conveniently clamped subsequently, and the situation that the battery is damaged due to the fact that the battery deviates and then falls off after being clamped is prevented; through a supporting spring between an inner plate and an outer plate in the limiting mechanism, the device can adapt to batteries of different sizes when clamping the batteries, when the sizes of the batteries are large, the device can clamp the batteries excessively, but the inner plate and the outer plate can displace, the batteries are prevented from being damaged by clamping, and the application range of the device is greatly widened.
Owner:重庆新知创科技有限公司

Automatic OCV test equipment for flexibly packaged power lithium ion battery

The invention relates to automatic OCV test equipment for a flexibly packaged power lithium ion battery. The automatic OCV test equipment comprises a rack, a movement mechanism unit, a tray conveyingunit, a battery tray, an OCV test unit and a controller, wherein the rack is used for mounting a working part; the movement mechanism unit is arranged in a mounting cavity of the rack and comprises aprobe plate component and a movement mechanism; the tray conveying unit is used for placing a tray and conveying the tray to a tray conveying line outside the rack; the OCV test unit is used for acquiring an OCV parameter of a to-be-tested flexibly packaged power lithium ion battery; the controller is arranged in the mounting cavity of the rack; the control terminals of the movement mechanism unitand the tray conveying unit are respectively electrically connected with a corresponding pin of the controller; and the signal output terminal of the movement mechanism unit is electrically connectedwith the OCV test unit, and the signal output terminal of the controller is connected with the signal input terminal of an external server by virtue of a signal. The automatic OCV test equipment provided by the invention has the beneficial effects that the automatic OCV test equipment can be compatible with multiple battery sizes, automation production efficiency is improved, automatic detectionon the OCV parameter of the battery is realized and operation is easy.
Owner:ZHEJIANG HANGKE TECH

Determination method for chamfer dimensions of die head gasket and die head gasket implementing same

The invention relates to a determination method for the chamfer dimensions of a die head gasket and the die head gasket implementing the method. The determination method for the chamfer dimensions ofthe die head gasket comprises the following steps: step one, arranging at least two chamfers of different dimensions on the die head gasket; step two, mounting the die head gasket on a die head of anextrusion coating machine, and coating a foil with a uniformity mixed battery sizing agent; and step three, after the coasting is stabilized, carrying out sampling measurement and drawing a profile curve of the coating along the thickness direction, and determining the chamfer dimensions of the die head gasket applicable for the battery sizing agent according to the profile curve. According to thedetermination method for the chamfer dimensions of the die head gasket, the chamfer dimensions of the die head gasket applicable for the battery sizing agent can be determined by only one die head gasket, so that the experiment cost is obviously reduced; and moreover, the chamfer dimensions are of only one variable, the influences (such as pump speed, sizing agent batch and man-made operation factors) of other factors among different tests are eliminated, and the accuracy and reliability of experimental result are guaranteed.
Owner:CALB CO LTD

Flow battery flow channel with bifurcated finger-type structure on bipolar plate

The invention relates to the technical field of flow batteries, in particular to a flow battery flow channel with a bifurcated finger-type structure on a bipolar plate. Electrolyte is evenly distributed to the liquid inlet flow channels of all the subunits of the flow channel step by step from an inlet in a step-by-step two-way mode, and the electrolyte of the liquid outlet flow channels is collected to an outlet step by step in the step-by-step two-way mode. The liquid inlet branch flow channels and the liquid outlet branch flow channels are alternately arranged and distributed in an interdigital manner and are not communicated with one another, so that electrolyte is forced to enter the porous electrode from the liquid inlet branch flow channels and then flow into the liquid outlet branch flow channels to be discharged. According to the two-branch finger-type flow channel, the electrolyte is uniformly distributed in each branch flow channel, so that on one hand, the uniformity of active substance supply is ensured, on the other hand, the pressure drop and the pump work loss are reduced, the sealing performance of a system is ensured, the flow of the electrolyte can be further improved, the mass transfer loss is further reduced, and the service life of the system is prolonged. And the battery voltage efficiency and the system efficiency are improved. The invention is suitable for flow batteries with different sizes, and the larger the size of the battery is, the more obvious the effect is.
Owner:THE HONG KONG UNIV OF SCI & TECH

Laminated battery detection equipment

The invention relates to the technical field of battery quality detection and discloses laminated battery detection equipment. The laminated battery detection equipment comprises a detection platform,a loading device, a detection assembly and an unloading device, wherein the detection platform is used for placing batteries and comprises a first sliding rail, a second sliding rail, a first drivingstructure and a battery placing plate; the first sliding rail and the second sliding rail are arranged in parallel; one side of the battery placing plate is in sliding connection with the first sliding rail; the other side of the battery placing plate is in sliding connection with the second sliding rail; the loading device is used for carrying to-be-detected batteries to the detection platform;the detection assembly is used for performing size detection on the battery placed on a detection position; and the unloading device is used for carrying away the detected batteries on the detection platform. Compared with detection equipment for detecting the battery size by a manual detection mode, the laminated battery detection equipment provided by the invention can automatically perform sizedetection on the to-be-detected batteries and greatly improves detection efficiency.
Owner:SHENZHEN HAOTIANCHEN SCI & TECH CO LTD
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Try Eureka
PatSnap group products