子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 281 | Apparatus for carbonating and dispensing liquids. | US1898682513 | 1898-06-03 | US652810A | 1900-07-03 | ROBERTSON HARRY |
| 282 | Can-filling machine | US424394D | US424394A | 1890-03-25 | ||
| 283 | Improvement in liquid-forcing apparatus | US204680D | US204680A | 1878-06-11 | ||
| 284 | METHOD FOR FILLING A CARTRIDGE WITH A FLOWABLE COMPONENT | US15771213 | 2016-10-25 | US20180304299A1 | 2018-10-25 | Hayden TURNER |
| The invention relates to a method for filling a cartridge with a flowable component, the method comprising the steps of: providing a cartridge with a cartridge chamber, the cartridge having a piston arranged in the cartridge chamber, the cartridge chamber and the piston defining a storage volume, the piston having a through-hole, arranging a filling nozzle at the through-hole and filling the cartridge by dispensing the flowable component through the through-hole of the piston into the storage volume. The invention further relates to a system suitable for executing the method. | ||||||
| 285 | Low pressure two component fluid metering, mixing and dispensing system | US15297052 | 2016-10-18 | US10035168B1 | 2018-07-31 | Horst Gerich |
| A base valve, a base pump, a catalyst valve, a catalyst pump, a mixing chamber, a base cylinder connected to the base valve, and a catalyst cylinder connected to the catalyst valve. The base and catalyst cylinders are actuated so as to push base and catalyst fluids out of the base and catalyst cylinders, respectively, and into the mixing chamber. An electronic controller has a ready mode and a dispensing mode. In the ready mode, the controller i) activates the base and catalyst pumps and ii) signals the actuator to push or pull, in response to a dispense signal being asserted. In the dispensing mode, the controller a) deactivates the base and catalyst pumps, b) signals the actuator to stop pushing or stop pulling, and maintains a) and b) in response to the dispense signal being de-asserted. Other embodiments are also described. | ||||||
| 286 | Tumbler Lid with Reservoir and Repetitive Measuring and Disbursement Mechanism | US15658205 | 2017-07-24 | US20180186529A1 | 2018-07-05 | Andrew Tonn; Stephen Sanford; David Yakos; Joel R. Switzer |
| This container lid fits onto existing insulated cups. It has a refillable and sealable reservoir with a top opening to receive substances and a bottom opening to release substances into a container. The release of substances is controlled and measured before release. A double piston and button combination interact with a narrow section of the reservoir to dispense only a portion of the contents from the reservoir into the container. The released portion is carefully metered within the narrow channel when the double piston alternately seals a first opening and a second opening of the narrow channel. The reservoir serves to store the unreleased substance until the next time the button is activated to release addition substance into the container. | ||||||
| 287 | SYSTEMS AND METHODS FOR APPLYING A LIQUID COATING TO A SUBSTRATE | US15784164 | 2017-10-15 | US20180036747A1 | 2018-02-08 | Per Orla-Jensen; Patrick T. Hogan; Gregory L. Hartmeier; Kenneth S. Espenschied |
| System and methods for calibrating a coating system are disclosed. Initially, a material is dispensed using an applicator of the coating system for a predetermined time period. A characteristic of the dispensing of the material for the predetermined time period is then determined. The characteristic of the dispensing of the material is compared to a predetermined range and it is determined that the characteristic of the dispensing of the material is outside of the predetermined range. In response, a velocity of the applicator, a pulse rate of the applicator, a temperature of the material, a pressure of the material supplied to the applicator, or a fan width of the applicator is adjusted to change the characteristic of the dispensing of the material. | ||||||
| 288 | PUMPING TYPE OF COSMETIC CONTAINER EQUIPPED WITH SIDE BUTTON | US15539417 | 2015-10-15 | US20170354232A1 | 2017-12-14 | Hak-Chan Kim; Seo-Hui Jung |
| A pumping type of cosmetics container equipped with a side button, wherein the container is configured such that a pumping action occurs and contents are discharged when the user pressurizes a button part and the button part elastically deforms due to own elastic force of the button part, thereby making it possible to easily discharge the contents by means of a simple structure even without the presence of a separate pumping member, and thus making it possible to not only shorten the assembly time but also to reduce manufacturing costs. | ||||||
| 289 | Systems and methods for applying a liquid coating to a substrate | US15186926 | 2016-06-20 | US09789497B1 | 2017-10-17 | Per Orla-Jensen; Patrick T. Hogan; Gregory L. Hartmeier; Kenneth S. Espenschied |
| System and methods for applying a liquid coating to a substrate are disclosed herein. One exemplary method includes a flow control routine in which the velocity of an applicator, or other parameter affecting the amount of material applied to the substrate, is iteratively adjusted. The amount of the adjustment performed in each iteration is tracked. When the sum of the adjustments by the flow control routine exceeds a predetermined threshold, a fan width control routine is initiated in which the fan width of the stream of material applied by the applicator is adjusted. | ||||||
| 290 | Resin cartridge production system | US14035400 | 2013-09-24 | US09738405B2 | 2017-08-22 | John G. Oldsen; Walter John Simmons; W. Neal Simmons; Robert McGinnis |
| A method is disclosed for packaging a curable resin composition and a catalyst composition that react with each other when mixed, comprising providing a partitioned tube for receiving the resin composition and the curing agent in separate compartments; delivering a stream of a resin composition into one compartment of the tube; delivering a stream of a curing agent in the other compartment of the tube; advancing the partitioned tube and constricting and sealing the partitioned tube at spaced apart intervals and severing the sealed tube to produce a package partitioning the resin composition from the catalyst composition. Solid particulate is continuously added into the stream of at least one of the catalyst composition and the resin composition and mixing the solid particulate and stream to produce a mixed composition; and the relative amount of solid particulate in the mixed composition is controlled by continuously determining the mass of solid particulate added to the mass of the stream. | ||||||
| 291 | Dispensing device for conveniently dispensing material | US14884367 | 2015-10-15 | US09656288B2 | 2017-05-23 | Chiu Ho Ng |
| According to embodiments of the invention, apparatuses and devices are provided for a liquid compound dispensing device. Generally, the dispenser includes a frame for carrying a composition, a plunger shaft having a piston at one end for urging the composition out of the frame, and one or more plunger driving assemblies for driving the actuator shaft to expel the compound. The plunger driving assemblies may have one or more downwardly extending handles, and the assembly includes one or more triggers extending upwardly within the housing. One or more triggers may be pressed to expel compound. Further, one or more triggers and/or handles may be movable to different portions of the dispensing device. | ||||||
| 292 | METHOD FOR METERING A LIQUID IN AN ANALYTICAL DEVICE | US15291174 | 2016-10-12 | US20170106363A1 | 2017-04-20 | Xu Zhou; Justyna Homa; Thomas Schipolowski; Thilo Krätschmer |
| The present disclosure relates to a method for metering a liquid into a wet chemistry analytical device wherein a specified volume of individual liquids is placed in a metering unit consisting of a metering container and at least one dose measuring device. During the filling of the metering container with the respective liquid, after the activation of the dose measuring device, an additional volume of the liquid is drawn into the metering tube beyond the position of the dose measuring device, wherein during this procedure and afterwards the status of the dose measuring device is checked, and a conclusion is drawn from this regarding the presence of an air bubble-free liquid in the metering tube. | ||||||
| 293 | CAULKING GUN | US15306834 | 2015-06-11 | US20170043367A1 | 2017-02-16 | Jean-Marie POPPE; Lieven SICHIEN |
| The present invention relates to a caulking gun for dispensing viscous material comprising a stock a cartridge keep a push rod longitudinally moveably mounted in the stock provided at its one end with a plunger which engages the piston of a cartridge placed in the cartridge keep, means for engaging the push rod to advance it, brake means hinged to the stock and provided with a clearance hole for engaging the push rod such that the push rod is moveable in a direction advancing the push rod towards the cartridge and is held in a direction retreating the push rod from the cartridge, which brake means are arranged to travel to a first position relative to the stock as the push rod advances and to a second position as the push rod retreats thereby defining the retreat of the push rod, the brake means being inclined relative to the axis of the push rod and adjusting means for varying the retreat of the push rod. In order to provide an adjustable caulking gun with at least two different levels of retreat of the push rod giving the user easily a visual feedback of the chosen retreat of the push rod, it is proposed according to the present invention that the adjusting means are configured as a rotatable wheel with a slope, the rotatable wheel being positioned on the axis of the push rod between the stock and the brake means, the distance between the highest point of the slope and the brake means defining the retreat of the push rod.This rotatable wheel allows the user to select the level of retreat of the push rod by turning the wheel between a first position with no retreat of the push rod and a second position with a maximum retreat of the push rod resulting in a anti-drip behaviour of the caulking gun. | ||||||
| 294 | Powered dispensing tool | US14253352 | 2014-04-15 | US09511923B2 | 2016-12-06 | Michael Naughton; Troy C. Thorson; Brandon L. Verbrugge; William E. Check; Thomas G. Simeone; Scott D. Eisenhardt; Scott Schneider |
| A powered dispensing tool includes a housing, a motor positioned within the housing, a rack coupled to the motor for powered translation in at least one of a forward direction and a reverse direction, and a transmission selectively coupling the motor and the rack. The transmission includes an input ring rotatable in response to rotation of the motor in a first direction corresponding with powered translation of the rack in the forward direction, a first clutch member engaged with the rack through an intermediate gear, and a second clutch member that receives torque from the input ring and that is movable in response to rotation of the motor in the first direction toward a first position engaging the first clutch member. The second clutch member is also movable in response to rotation of the motor in an opposite, second direction toward a second position disengaged from the first clutch member. | ||||||
| 295 | CONDUCTIVE LIQUID PROPERTY MEASUREMENT USING MULTIPLE CHARGE TRANSFER TIMES | US14559706 | 2014-12-03 | US20150160148A1 | 2015-06-11 | James Gregory Stanley |
| Systems and methods for making repeatable measurements of the dielectric constant and conductivity of a material, such as a liquid. In one example, a material property measurement system includes a measurement cell, a voltage measurement circuit, a capacitor, and a switch. The measurement cell is made of at least two conducting electrodes with liquid between the conducting electrodes. The switch is in a current path between the capacitor and the measurement cell. The capacitor is charged and then the switch is closed for a first time period and a first voltage measurement on the capacitor is performed. The capacitor is charged again and the switch is closed for a second time period and a second voltage measurement on the capacitor is performed. The two voltage measurements are used in a calculation to calculate a value related to capacitance between the at least two conducting electrodes of the measurement cell. | ||||||
| 296 | DISPENSERS FOR DILUTING A CONCENTRATED LIQUID AND DISPENSING THE DILUTED CONCENTRATE | US13787416 | 2013-03-06 | US20140110434A1 | 2014-04-24 | Nick E. Ciavarella; Paul R. Metcalfe; Scott E. Urban |
| Exemplary embodiments of dispensers are disclosed herein. One exemplary dispenser is a soap or sanitizer dispenser. The dispenser includes a housing. A removable and replaceable concentrate container for holding concentrated soap or sanitizer is located within the housing. A concentrate pump is in fluid communication with the concentrate container. A diluent container for holding a liquid is also located within the housing and a diluent pump for pumping the diluent is also included. The dispenser includes a mixing chamber in fluid communication with the concentrate pump and the diluent pump. The dispenser includes an outlet. When concentrated soap or sanitizer is pumped from the concentrate container, it mixes with diluent pumped from the diluent container to form a diluted mixture. The diluted mixture is dispensed at the outlet of the dispenser. | ||||||
| 297 | GREASE GUN WITH AN OBSERVATION WINDOW | US13602137 | 2012-09-01 | US20140061242A1 | 2014-03-06 | Sandra KUO |
| A grease gun with an observation window is provided with a metal outer barrel, a plastic transparent inner barrel received in the outer barrel, and an operating end cover and a piston end cover screwed at two ends of the outer barrel. The observation window is formed on the outer barrel, and the two end covers define an oil storage space with respect to the inner barrel, and the interior of the oil storage space can be seen through the observation window of the outer barrel and the transparent inner barrel. | ||||||
| 298 | Apparatus and methods for monitoring quantities of fluid in a container | US13346267 | 2012-01-09 | US08447538B2 | 2013-05-21 | James Cebulski |
| The present technology relates to a volumetric measurement device and various methods for operation of the device. The device comprises at least one accelerometer for detecting the angle of tilt/tip of a container. The device also comprises at least one fluid property processor capable of providing at least one fluidic property value of a fluid, a flow-rate processor capable of continuously calculating the present flow rate of the fluid when poured from the container, and a volume processor capable of continuously calculating the present volume of the fluid within the container. The flow-rate processor calculates the rate of flow of the fluid poured from the container based on the angle of tilt/tip of the apparatus, the at least one fluid property value, and the present volume of fluid within the container. | ||||||
| 299 | POWERED DISPENSING TOOL | US13296732 | 2011-11-15 | US20120118917A1 | 2012-05-17 | Michael Naughton; Troy C. Thorson; Brandon L. Verbrugge; William E. Check; Thomas G. Simeone; Scott D. Eisenhardt; Scott Schneider |
| A powered dispensing tool includes a housing, a motor positioned within the housing, a rack coupled to the motor for powered translation in at least one of a forward direction and a reverse direction, and a transmission selectively coupling the motor and the rack. The transmission includes an input ring rotatable in response to rotation of the motor in a first direction corresponding with powered translation of the rack in the forward direction, a first clutch member engaged with the rack through an intermediate gear, and a second clutch member that receives torque from the input ring and that is movable in response to rotation of the motor in the first direction toward a first position engaging the first clutch member. The second clutch member is also movable in response to rotation of the motor in an opposite, second direction toward a second position disengaged from the first clutch member. | ||||||
| 300 | MEDICATION INJECTION SUPERVISOR DEVICE | US13291073 | 2011-11-07 | US20120053527A1 | 2012-03-01 | William Cirillo; John Hughes |
| Provided are medication injection supervisor devices for use with prefabricated injection pens. A medication injection supervisor device may include a universal header having one or more attachment features for attaching the header to a prefabricated injection pen. The attachment may be removable or permanent. Some examples of removable attachments include a sleeve for positioning around the pen, a slot for receiving a ridge of the pen, a cavity for receiving a clip or a specially configured pin of the pen, and two rings into which the pen may be received. Some examples of permanent attachments include integrated bodies of the pen and universal header and glue. The medication injection supervisor device may also include an electronics assembly housed by the universal header, a sensor for automatic detection of an injection, a display for viewing injection data, and one or more buttons for manipulating the injection data, such as resetting the time. | ||||||
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