公开(公告)号：US20160054757A1

公开(公告)日：2016-02-25

申请号：US14832859

申请日：2015-08-21

Applicant: Z124

Inventor： Paul E. Reeves ,  Brian Reeves ,  Chris Tyghe ,  Sanjiv Sirpal ,  Richard Teltz

IPC: G06F1/16 ,  G06F3/0488 ,  G06F3/14 ,  G06F13/40

CPC classification number: G06F1/1649 ,  G06F1/1615 ,  G06F3/04883 ,  G06F3/1438 ,  G06F3/1446 ,  G06F9/452 ,  G06F13/4081 ,  G06F2200/1637 ,  G09G5/14 ,  G09G2340/0464 ,  G09G2340/14

Abstract: Methods and devices for selectively presenting a user interface or “desktop” across two devices are provided. More particularly, a unified desktop is presented across a device and a computer system that comprise a unified system. The unified desktop acts as a single user interface that presents data and receives user interaction in a seamless environment that emulates a personal computing environment. To function within the personal computing environment, the unified desktop includes a process for docking and undocking the device with the computer system. The unified desktop presents desktops or windows based on the displays that were pre-existing before docking or undocking.

Abstract translation: 提供了用于选择性地呈现跨两个设备的用户界面或“桌面”的方法和设备。 更具体地，跨越包括统一系统的设备和计算机系统呈现统一桌面。 统一的桌面作为一个单一的用户界面，可以在模拟个人计算环境的无缝环境中呈现数据并接收用户交互。 为了在个人计算环境中运行，统一桌面包括一个用于与计算机系统进行对接和脱离设备的过程。 统一的桌面基于在对接或脱离之前已经存在的显示器来呈现桌面或窗口。

公开(公告)号：US09244491B2

公开(公告)日：2016-01-26

申请号：US13834137

申请日：2013-03-15

Applicant: Z124

Inventor： Richard Teltz

IPC: G06F1/16 ,  G06F9/44 ,  G06F3/0481 ,  G06F3/0483 ,  G06F3/0488 ,  H04N5/765 ,  G06F3/14

CPC classification number: G06F1/1632 ,  G06F1/1616 ,  G06F1/1641 ,  G06F3/0481 ,  G06F3/0483 ,  G06F3/04883 ,  G06F3/1438 ,  G06F3/1446 ,  G06F9/451 ,  H04N5/765

Abstract: A multi-display device can interface with two or more different types of docking stations. The device can determine the type of dock and change the pin outs for a connector to interface with that dock. Once docked, the device can determine a charge status for the device and the dock to present the status to the user. Further, the dock can enter one of several modes, including a call receipt mode and an entertainment mode. The modes allow for expanded functionality for the device while docked. Two particular docks, the laptop dock and the smart dock, provide special functionality with the device.

Abstract translation: 多显示设备可以与两个或多个不同类型的坞站接口。 该设备可以确定坞站的类型，并将连接器的引脚更改为与该坞站接口。 一旦对接，设备可以确定设备和坞站的充电状态，以向用户显示状态。 此外，码头可以进入多种模式之一，包括呼叫接收模式和娱乐模式。 这些模式允许在停靠时对设备进行扩展功能。 两个特定的码头，笔记本电脑底座和智能底座，为设备提供特殊的功能。

公开(公告)号：US09005349B2

公开(公告)日：2015-04-14

申请号：US13660572

申请日：2012-10-25

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  Michael J. Flynn ,  Richard Teltz ,  Gary Fong ,  Kean Wing Kin Lam

IPC: B01D53/02 ,  B01D53/26 ,  F25B17/02 ,  F25D21/14 ,  F24F3/14 ,  F25B43/00 ,  B01D53/18 ,  B01D53/04 ,  B01D53/28 ,  F25B37/00

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method to recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. Fans, valves, and manifolds are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. The airflow within the chamber and/or each tray is altered depending upon the settings of configurable airflow manifolds. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

Abstract translation: 从环境气流中回收水的系统和方法。 气流的除湿也可以通过去除水来实现。 该系统的装置包括具有一组托盘的腔室，该托盘容纳每个托盘中的相应量的液体干燥剂。 风扇，阀门和歧管用于控制通过设备的气流。 充电循环使空气循环通过设备以从气流中除去水蒸汽。 随后的萃取循环通过与室连通的冷凝器去除在液体干燥剂中收集的水。 腔室和/或每个托盘内的气流根据可配置气流歧管的设置而改变。 整个热交换器在提取循环期间将热量加热到室中。 控制器用于集成和管理所有系统功能和输入变量，以实现高效的采集能量使用。

公开(公告)号：US08882888B2

公开(公告)日：2014-11-11

申请号：US13908576

申请日：2013-06-03

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  David Blatt ,  Michael J. Flynn ,  Richard Teltz

IPC: B01D53/02 ,  B01D53/26 ,  F25B17/02 ,  F24F3/14 ,  B01D53/18 ,  B01D53/04 ,  F25B43/00 ,  F25D21/14 ,  B01D53/28

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

公开(公告)号：US20130319246A1

公开(公告)日：2013-12-05

申请号：US13660525

申请日：2012-10-25

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  Michael J. Flynn ,  Kean Wing Kin Lam ,  Richard Teltz

IPC: B01D53/26

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

公开(公告)号：US20160062807A1

公开(公告)日：2016-03-03

申请号：US14847933

申请日：2015-09-08

Applicant: Z124

Inventor： Brian Reeves ,  Paul E. Reeves ,  Richard Teltz ,  David Reeves ,  Sanjiv Sirpal ,  Christopher Tyghe

IPC: G06F9/54 ,  G06F13/42 ,  G06F9/445

CPC classification number: G06F9/541 ,  G06F9/4411 ,  G06F9/4418 ,  G06F9/44505 ,  G06F9/45533 ,  G06F13/14 ,  G06F13/4068 ,  G06F13/4282 ,  G06F2009/45575

Abstract: A mobile computing device with a mobile operating system and desktop operating system running concurrently and independently on a shared kernel without virtualization. The mobile operating system provides a user experience for the mobile computing device that suits the mobile environment. The desktop operating system provides a full desktop user experience when the mobile computing device is docked to a secondary terminal environment. The mobile computing device may be a smartphone running the Android mobile OS and a full desktop Linux distribution on a modified Android kernel.

Abstract translation: 具有移动操作系统和桌面操作系统的移动计算设备，并行且独立地在共享内核上运行，而无需虚拟化。 移动操作系统为适合移动环境的移动计算设备提供用户体验。 当移动计算设备对接到辅助终端环境时，桌面操作系统提供完整的桌面用户体验。 移动计算设备可以是在修改的Android内核上运行Android移动操作系统和完整桌面Linux发行版的智能手机。

公开(公告)号：US09039816B2

公开(公告)日：2015-05-26

申请号：US13693451

申请日：2012-12-04

Applicant: Z124

Inventor： Charles Becze ,  James Ball ,  David Blatt ,  Michael J. Flynn ,  Gary Fong ,  Kean Wing Kin Lam ,  Richard Teltz

IPC: B01D53/02 ,  B01D53/26 ,  F25B17/02 ,  F25D21/14 ,  F24F3/14 ,  F25B43/00 ,  B01D53/18 ,  B01D53/04 ,  B01D53/28 ,  F25B37/00

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method to recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray, the concentration of the liquid desiccant may be dynamically changed based on changes within the system. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

Abstract translation: 从环境气流中回收水的系统和方法。 气流的除湿也可以通过去除水来实现。 该系统的装置包括具有一组托盘的腔室，该托盘容纳每个托盘中的相应量的液体干燥剂，液体干燥剂的浓度可以基于系统内的变化而动态地改变。 泡沫介质吸收干燥剂以将干燥剂的暴露表面增加到气流。 风扇和阀门用于控制通过设备的气流。 充电循环使空气循环通过设备以从气流中除去水蒸汽。 随后的萃取循环通过与室连通的冷凝器去除在液体干燥剂中收集的水。 控制器用于集成和管理所有系统功能和输入变量，以实现高效的采集能量使用。

公开(公告)号：US08882895B2

公开(公告)日：2014-11-11

申请号：US13660602

申请日：2012-10-25

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  Michael J. Flynn ,  Kean Wing Kin Lam ,  Richard Teltz

IPC: B01D53/02 ,  B01D53/28 ,  F25B43/00 ,  B01D53/18 ,  B01D53/26 ,  F25D21/14 ,  B01D53/04 ,  F25B17/02 ,  F24F3/14

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to dynamically control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

Abstract translation: 系统和方法从环境气流中回收水。 气流的除湿也可以通过去除水来实现。 该系统的装置包括具有一组托盘的腔室，该托盘容纳每个托盘中的相应量的液体干燥剂。 泡沫介质吸收干燥剂以将干燥剂的暴露表面增加到气流。 风扇和阀门用于动态控制通过设备的气流。 充电循环使空气循环通过设备以从气流中除去水蒸汽。 随后的萃取循环通过与室连通的冷凝器去除在液体干燥剂中收集的水。 整个热交换器在提取循环期间将热量加热到室中。 控制器用于集成和管理所有系统功能和输入变量，以实现高效的采集能量使用。

公开(公告)号：US08834614B2

公开(公告)日：2014-09-16

申请号：US13660499

申请日：2012-10-25

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  Michael J. Flynn ,  Kean Wing Kin Lam ,  Richard Teltz

IPC: B01D53/02 ,  F25D21/14 ,  F25B17/02 ,  B01D53/26 ,  B01D53/04 ,  B01D53/18 ,  B01D53/28 ,  F24F3/14 ,  F25B43/00

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

Abstract translation: 系统和方法从环境气流中回收水。 气流的除湿也可以通过去除水来实现。 该系统的装置包括具有一组托盘的腔室，该托盘容纳每个托盘中的相应量的液体干燥剂。 泡沫介质吸收干燥剂以将干燥剂的暴露表面增加到气流。 风扇和阀门用于控制通过设备的气流。 充电循环使空气循环通过设备以从气流中除去水蒸汽。 随后的萃取循环通过与室连通的冷凝器去除在液体干燥剂中收集的水。 整个热交换器在提取循环期间将热量加热到室中。 控制器用于集成和管理所有系统功能和输入变量，以实现高效的采集能量使用。

公开(公告)号：US20130319244A1

公开(公告)日：2013-12-05

申请号：US13908576

申请日：2013-06-03

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  David Blatt ,  Michael Flynn ,  Richard Teltz

IPC: B01D53/04

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

Abstract translation: 系统和方法从环境气流中回收水。 气流的除湿也可以通过去除水来实现。 该系统的装置包括具有一组托盘的腔室，该托盘容纳每个托盘中的相应量的液体干燥剂。 泡沫介质吸收干燥剂以将干燥剂的暴露表面增加到气流。 风扇和阀门用于控制装置的气流。 充电循环使空气循环通过设备以从气流中除去水蒸汽。 随后的萃取循环通过与室连通的冷凝器去除在液体干燥剂中收集的水。 整个热交换器在提取循环期间将热量加热到室中。 控制器用于集成和管理所有系统功能和输入变量，以实现高效的采集能量使用。