-
公开(公告)号:US20160256006A1
公开(公告)日:2016-09-08
申请号:US14640731
申请日:2015-03-06
Applicant: BlendTec, Inc.
Inventor: Thomas D. Dickson, JR. , Travis J. Mittanck , Javier E. Jimenez , Tyson D. Triplett , Craig C. Hardcastle , Scott C. Losee , Christian D. Mills , Gregory D. Jackson , Heber J. Redd
CPC classification number: A47J43/0722 , A47J43/046 , A47J43/07 , A47J43/0766 , A47J43/0772 , A47J43/08 , A47J43/085 , B01F7/00583 , B01F7/00658 , B01F7/021 , B01F7/14 , B01F7/162 , B01F7/30 , B01F15/00201 , B01F2015/00597
Abstract: A variable-engagement planetary food mixing tool for attachment to a motorized food mixing apparatus is presented. The tool has a body that has a driveshaft engagement portion and a first longitudinal axis. The tool also has a sun gear concentric with the first longitudinal axis, wherein the sun gear has a first helical gear surface. A planet gear with a second longitudinal axis is also included, wherein the second longitudinal axis is non-parallel to the first longitudinal axis. The planet gear has a second helical gear surface extending around the second longitudinal axis. The planet gear is configured to engage the first helical gear surface of the sun gear in one or more positions along the second longitudinal axis. A mixing member is connected to the planet gear and moves around the first longitudinal axis while rotating around the second longitudinal axis as the planet gear traverses the sun gear.
Abstract translation: 提出了一种用于连接到电动食品混合设备的可变接合行星式食物混合工具。 该工具具有一个主体,该主体具有一个驱动轴接合部分和一个第一纵向轴线。 该工具还具有与第一纵向轴线同心的太阳齿轮,其中太阳齿轮具有第一斜齿轮表面。 还包括具有第二纵向轴线的行星齿轮,其中第二纵向轴线不平行于第一纵向轴线。 行星齿轮具有围绕第二纵向轴线延伸的第二斜齿轮表面。 行星齿轮构造成沿着第二纵向轴线在一个或多个位置接合太阳齿轮的第一斜齿轮表面。 当行星齿轮穿过太阳齿轮时,混合构件连接到行星齿轮并围绕第一纵向轴线移动,同时围绕第二纵向轴线旋转。
-
公开(公告)号:US20160242599A1
公开(公告)日:2016-08-25
申请号:US15048498
申请日:2016-02-19
Applicant: Modern Process Equipment, Inc.
Inventor: Daniel Richard Ephraim , Christopher Martin Spatz
CPC classification number: B01F7/00708 , A23F5/28 , A47J42/36 , A47J42/38 , A47J42/40 , A47J42/44 , B01F3/18 , B01F7/001 , B01F7/00141 , B01F7/00258 , B01F13/1002 , B01F13/1047 , B01F15/00201 , B01F15/0251 , B01F2013/1086 , B02C18/2216 , B02C18/2258 , B02C18/24 , B30B11/227 , B30B11/241 , B65B63/02
Abstract: A coffee densifier is disclosed. The coffee densifier comprises an elongated chamber, a densifier motor, a shaft, a plurality of densifier members, a discharge door actuator, a densifier motor load sensor, and a controller. The plurality of densifier members are fixed to the shaft and configured to polish a plurality of coffee particles of the ground coffee within the elongated chamber when the plurality of densifier members are rotated by the shaft through the ground coffee within the mixing chamber. The controller configured to signal the discharge door actuator to move the discharge door to increase or decrease a density of the ground coffee exiting the chamber through the discharge opening when the densifier motor load is outside a predefined densifier motor load operating range.
Abstract translation: 公开了咖啡增稠剂。 咖啡浓缩器包括细长室,增密电动机,轴,多个致密构件,排气门致动器,增密器电动机负载传感器和控制器。 所述多个致密构件固定在所述轴上,并且构造成当所述多个致密构件通过所述轴在所述混合室内通过所述研磨咖啡旋转时,在所述细长室内抛光所述研磨咖啡的多个咖啡颗粒。 所述控制器被配置为当所述致密器电动机负载在预定的增压器电动机负载工作范围之外时,通过所述排放口来发出所述排放门致动器以移动所述排出门以增加或减小离开所述室的所述研磨咖啡的密度。
-
公开(公告)号:US20160067657A1
公开(公告)日:2016-03-10
申请号:US14933018
申请日:2015-11-05
Applicant: Mixer Technologies Inc.
Inventor: Shawn P. Steffler , Donald D. Savard
CPC classification number: B01F5/0281 , B01F5/0218 , B01F5/0231 , B01F15/00123 , B01F15/00201 , B01F15/00376 , G01P3/02 , G01P3/12
Abstract: A mixer nozzle assembly for mixing fluid introduced into a tank having a tank volume therein. The mixer nozzle assembly includes a stationary body and a rotatable body mounted on the stationary body for rotation about an axis in a predetermined direction. The fluid flows through the stationary body to the rotatable body and exits into the tank volume via one or more outlet apertures, thereby causing the rotatable body to rotate in the predetermined direction about the axis. The mixer nozzle assembly also includes a governor subassembly for controlling a speed of rotation of the rotatable body in the predetermined direction about the axis.
Abstract translation: 一种混合器喷嘴组件,用于混合引入其中具有罐体积的罐中的流体。 混合器喷嘴组件包括固定体和安装在固定体上的旋转体,用于围绕预定方向的轴线旋转。 流体通过静止体流动到可转动的主体并通过一个或多个出口孔离开到容器体积中,从而使可旋转体围绕轴线沿预定方向旋转。 混合器喷嘴组件还包括调节器子组件,用于控制旋转体在围绕轴线的预定方向上的旋转速度。
-
公开(公告)号:US09056290B2
公开(公告)日:2015-06-16
申请号:US14380044
申请日:2013-01-30
Applicant: The Yokohama Rubber Co., LTD.
Inventor: Osamu Ozawa , Yasuaki Shinoda
CPC classification number: B01F15/00201 , B01F7/00975 , B01F2215/0049 , B29B7/10 , B29B7/183 , B29B7/186 , B29B7/246 , B29B7/263 , B29B7/283 , B29K2021/003 , B29K2507/04
Abstract: The system includes: a closed-type rubber kneader that kneads kneading materials that include raw rubber and carbon black; a rotation meter of a rotor; a power meter that measures the instantaneous power required to drive the rotation of the rotor; and a calculation device to which the measurement data is input. The calculation device calculates an evaluation index that evaluates the kneading efficiency of the kneader based on the total amount of shear calculated by integrating the shear velocity applied to the kneading materials by the rotor over the kneading time, and a unit work calculated by dividing the integrated power obtained by integrating the instantaneous power over the kneading time by the mass of the kneading materials.
Abstract translation: 该系统包括:捏合包括生橡胶和炭黑的捏合材料的封闭式橡胶捏合机; 转子的旋转计; 测量驱动转子旋转所需的瞬时功率的功率计; 以及输入测量数据的计算装置。 计算装置计算评价捏合机的捏合效率的评价指标,该评价指标基于通过将通过转子施加到捏合材料的剪切速度与捏合时间进行积分而计算出的剪切总量,以及通过将整合 通过将捏合时间的瞬时功率与捏合材料的质量相结合而获得的功率。
-
公开(公告)号:US20150142362A1
公开(公告)日:2015-05-21
申请号:US14541858
申请日:2014-11-14
Applicant: VERIFI LLC
Inventor: Richard K. Jordan , Yan Glina , Mark F. Roberts , Eric P. Koehler
CPC classification number: G01P3/44 , B01F9/06 , B01F15/00201 , B01F15/00363 , B01F2009/0063 , B28C5/422 , B28C7/02 , G01C19/00 , G01C19/02 , G01C25/005 , G01P9/02
Abstract: A gyroscopic rotational monitoring system may be utilized for monitoring one or more properties of rotatable container or vessel, and/or one or more properties of a displaceable material contained in the rotatable vessels. An exemplary aspect relates to the use of a gyroscope and periodicity sensor (e.g., accelerometer) to determine rotational speed of a concrete mixing drum, so that the slump or other property of the concrete can be monitored or adjusted such as by dosing with water, chemical admixtures, or mixture thereof.
Abstract translation: 可以使用陀螺仪旋转监测系统来监测可旋转容器或容器的一个或多个特性,和/或包含在可旋转容器中的可置换材料的一个或多个特性。 示例性方面涉及使用陀螺仪和周期性传感器(例如,加速度计)来确定混凝土搅拌筒的转速,从而可以监测或调整混凝土的坍落度或其他性质,例如通过用水配量, 化学混合物或其混合物。
-
Patent Agency Ranking
公开(公告)号:US20150117134A1
公开(公告)日:2015-04-30
申请号:US14380044
申请日:2013-01-30
Applicant: The Yokohama Rubber Co., LTD
Inventor: Osamu Ozawa , Yasuaki Shinoda
CPC classification number: B01F15/00201 , B01F7/00975 , B01F2215/0049 , B29B7/10 , B29B7/183 , B29B7/186 , B29B7/246 , B29B7/263 , B29B7/283 , B29K2021/003 , B29K2507/04
Abstract: The system includes: a closed-type rubber kneader that kneads kneading materials that include raw rubber and carbon black; a rotation meter of a rotor; a power meter that measures the instantaneous power required to drive the rotation of the rotor; and a calculation device to which the measurement data is input. The calculation device calculates an evaluation index that evaluates the kneading efficiency of the kneader based on the total amount of shear calculated by integrating the shear velocity applied to the kneading materials by the rotor over the kneading time, and a unit work calculated by dividing the integrated power obtained by integrating the instantaneous power over the kneading time by the mass of the kneading materials.
Abstract translation: 该系统包括:捏合包括生橡胶和炭黑的捏合材料的封闭式橡胶捏合机; 转子的旋转计; 测量驱动转子旋转所需的瞬时功率的功率计; 以及输入测量数据的计算装置。 计算装置计算评价捏合机的捏合效率的评价指标,该评价指标基于通过将通过转子施加到捏合材料的剪切速度与捏合时间进行积分而计算出的剪切总量,以及通过将整合 通过将捏合时间的瞬时功率与捏合材料的质量相结合而获得的功率。
-
公开(公告)号:US08905624B1
公开(公告)日:2014-12-09
申请号:US12806752
申请日:2010-08-20
Applicant: Harold W. Howe , Peter A. Lucon , Jeffrey D. Thornton , Brian Jay Seaholm
Inventor: Harold W. Howe , Peter A. Lucon , Jeffrey D. Thornton , Brian Jay Seaholm
CPC classification number: B01F11/0291 , B01F11/0266 , B01F15/00201 , B01F15/00253 , B01F2215/0409
Abstract: A system and method for controlling a mixing system at a peak energy efficiency point, maximum response point or reduced sound generation point based on displacement, velocity, acceleration or jerk operating conditions.
Abstract translation: 一种用于基于位移,速度,加速度或冲击操作条件在峰值能量效率点,最大响应点或降低的声音产生点处控制混合系统的系统和方法。
-
公开(公告)号:US20140286120A1
公开(公告)日:2014-09-25
申请号:US14213557
申请日:2014-03-14
Applicant: VITA-MIX CORPORATION
Inventor: David Kolar
IPC: B01F15/00
CPC classification number: A47J43/0777 , A47J43/046 , A47J43/0727 , B01F13/047 , B01F15/00201 , B01F15/00207 , B01F15/00305 , B01F2215/0014 , B01F2215/0026
Abstract: A blending device is shown and described. The blending device may include a blending container and a power source operatively connected to the blending container. The power source may be configured to supply power to the blending container. The blending container may also include a feature that is powered by the power source.
Abstract translation: 显示和描述混合装置。 混合装置可以包括混合容器和可操作地连接到混合容器的电源。 电源可以被配置为向混合容器供电。 混合容器还可包括由电源供电的特征。
-
公开(公告)号:US20130344204A1
公开(公告)日:2013-12-26
申请号:US13751745
申请日:2013-01-28
Applicant: Mark E. Goodson
Inventor: Mark E. Goodson
CPC classification number: B01F13/0001 , A23L3/26 , A47J43/04 , B01F7/00725 , B01F7/22 , B01F13/0006 , B01F13/08 , B01F15/00181 , B01F15/00201 , B01F15/00253 , B01F15/067 , B01F15/068 , B01F2015/062 , B01F2215/0022
Abstract: A beverage mixing system/method allowing faster mixing/blending of frozen beverages is disclosed. The system/method in various embodiments utilizes inductive coupling to introduce heat into the frozen beverage during the mixing/blending process via a rotating driveshaft and attached mechanical agitator to speed the mixing/blending process. Exemplary embodiments may be configured to magnetically induce heat into the driveshaft and/or mechanical agitator mixing blade to affect this mixing/blending performance improvement. This heating effect may be augmented via the use of high power LED arrays aimed into the frozen slurry to provide additional heat input. The system/method may be applied with particular advantage to the mixing of ice cream type beverages and other viscous beverage products.
Abstract translation: 公开了一种能够更快速地混合/混合冷冻饮料的饮料混合系统/方法。 各种实施例中的系统/方法利用感应耦合来通过旋转驱动轴和附接的机械搅拌器在混合/共混过程中将热量引入冷冻饮料中,以加速混合/共混过程。 示例性实施例可以被配置为将热量引导到驱动轴和/或机械搅拌器混合叶片中以影响该混合/混合性能改进。 这种加热效果可以通过使用瞄准冷冻浆料的高功率LED阵列来增加以提供额外的热量输入。 该系统/方法可以特别有利于混合冰淇淋型饮料和其它粘性饮料产品。
-
公开(公告)号:US20130229890A1
公开(公告)日:2013-09-05
申请号:US13867532
申请日:2013-04-22
Applicant: HUNHNSEAL AB
Inventor: Goran Anderberg
IPC: B01F7/00
CPC classification number: B01F7/00016 , B01F3/0853 , B01F3/1221 , B01F7/00158 , B01F7/285 , B01F15/00201 , B01F15/00389
Abstract: An apparatus for mixing a viscous flowable medium includes a receptacle for receiving the viscous flowable medium and has a substantially vertically arranged rotatable stirring axle and a stirring assembly that comprises at least one stirring element. In one embodiment, the stirring element is arranged at a lower end of the stirring axle substantially perpendicular thereto for rotation of the stirring element around the stirring axle. The stirring elements are shovel-like and are open towards an end of the stirring axle remote from the lower end and inclined with a slant angle in rotation direction towards a bottom of the receptacle, such that said viscous liquid upon rotation of the stirring axle is at least partly directed upwards in the receptacle by the at least one shovel-like stirring element.
Abstract translation: 用于混合粘性流动介质的装置包括用于接收粘性流动介质的容器,并具有基本垂直布置的可旋转搅拌轴和包括至少一个搅拌元件的搅拌组件。 在一个实施例中,搅拌元件布置在基本上垂直于其的搅拌轴的下端,用于使搅拌元件围绕搅拌轴旋转。 搅拌元件是铲状的,并且朝着远离下端的搅拌轴的端部敞开,并且朝向容器的底部以旋转方向倾斜倾斜,使得当搅拌轴旋转时所述粘性液体是 至少部分地通过所述至少一个铲式搅拌元件在所述容器中向上引导。
-
-
-
-
-
-
-
-
-
Search Results
195
records
(took 0.023 seconds)
