公开(公告)号：US20060235639A1

公开(公告)日：2006-10-19

申请号：US11106927

申请日：2005-04-15

Applicant: Pietro Piazza

Inventor： Pietro Piazza

IPC: G06F15/00

CPC classification number: G01K17/06 ,  G01K7/42 ,  G01K2201/00

Abstract: A system and method is provided, comprising a sensor for monitoring surrounding temperature; a timer for generating clock data; a controller for reading temperature at predetermined intervals, storing temperature data and corresponding time data in memory and executing software commands; a data display; a calculator for calculating temperature as a function of time; and software containing commands, whereby a quantity, degree-time, is determined which reflects the amount of atmospheric heat present in a selected location during a selected period of time, and a value in degrees of temperature per unit of time for the period is determined, useful for comparison with values calculated for other localities, or anticipating power demands for heating and air conditioning.

Abstract translation: 提供了一种系统和方法，包括用于监测周围温度的传感器; 用于产生时钟数据的定时器; 用于以预定间隔读取温度的控制器，将温度数据和对应的时间数据存储在存储器中并执行软件命令; 数据显示; 用于计算温度作为时间的函数的计算器; 以及包含命令的软件，由此确定反映在所选择的时间段期间在选定位置中存在的大气热量的量的度数，并且确定该周期中每单位时间的温度值 ，可用于与其他地区计算的值进行比较，或预测供暖和空调的电力需求。

公开(公告)号：US20060021739A1

公开(公告)日：2006-02-02

申请号：US10909781

申请日：2004-08-02

Applicant: David Young ,  John Coates ,  James Snow

Inventor： David Young ,  John Coates ,  James Snow

IPC: F28D15/00

CPC classification number: G01K17/06 ,  F28D1/035 ,  F28F2200/00 ,  F28F2265/16 ,  G01K17/12 ,  G01K2201/00

Abstract: A heat exchanger evaluation system (84) includes a refrigeration subsystem (126) and a platform (94) in communication with the subsystem (126) for attachment of a heat exchanger (32). The system, (84) further includes a thermal imaging camera (168) and a monitor (100). A method (180) entails routing a fluid (38) through the heat exchanger (32) via the refrigeration subsystem (126). The camera (168) detects the temperature variation across the heat exchanger (32) as the fluid (38) flows through the heat exchanger, and provides successive thermal images representing the temperature variation responsive to the flow of the fluid (38). The thermal images are utilized to determine an efficacy of the flow through the heat exchanger (32). In particular, a determination can be made as to whether the flow deviates from a pre-determined flow path (79) of the fluid (38) through the heat exchanger.

Abstract translation: 热交换器评估系统（84）包括与用于附接热交换器（32）的子系统（126）连通的制冷子系统（126）和平台（94）。 该系统（84）还包括热成像相机（168）和监视器（100）。 方法（180）需要经由制冷子系统（126）将流体（38）路由穿过热交换器（32）。 当流体（38）流过热交换器时，照相机（168）检测穿过热交换器（32）的温度变化，并响应于流体（38）的流动提供代表温度变化的连续热图像。 热图像用于确定通过热交换器（32）的流动的功效。 特别地，可以确定流体是否偏离流体（38）的预定流动路径（79）通过热交换器。

公开(公告)号：US20240027088A1

公开(公告)日：2024-01-25

申请号：US18256859

申请日：2021-10-08

Applicant: Panasonic Intellectual Property Management Co., Ltd.

Inventor： Hirofumi KUBOTA ,  Fei LIU ,  Noriaki FUKUMOTO

IPC: F24F11/52 ,  G01K1/024 ,  G01K1/14 ,  G01N33/00

CPC classification number: F24F11/52 ,  G01K1/024 ,  G01K1/14 ,  G01N33/0027 ,  G01K2201/00

Abstract: A display system includes an acquirer, an estimator, and a controller. The acquirer acquires a first detection value and a second detection value from a temperature sensor and a humidity sensor, respectively. The temperature sensor and the humidity sensor are both included in a ventilator that ventilates a room. The estimator estimates, based on the first detection value and the second detection value that are acquired by the acquirer, a predicted mean vote distribution representing a distribution of predicted mean votes in a height direction in the room. The controller makes a display device present the predicted mean vote distribution estimated by the estimator.

公开(公告)号：US20190154499A1

公开(公告)日：2019-05-23

申请号：US15818201

申请日：2017-11-20

Applicant: Honeywell International Inc.

Inventor： Mark C. Buckley

IPC: G01J1/04 ,  G02B1/04 ,  G02B7/02 ,  G02B3/08 ,  G01P13/00 ,  G01K13/02 ,  G01K1/14 ,  G05B19/048

CPC classification number: G01J1/0403 ,  G01J1/0411 ,  G01J1/0437 ,  G01K1/14 ,  G01K13/02 ,  G01K2201/00 ,  G01P13/00 ,  G02B1/041 ,  G02B3/08 ,  G02B7/026 ,  G05B19/048 ,  G05B2219/2614 ,  G05B2219/2642 ,  C08L23/06

Abstract: A building controller includes a controller that is operatively coupled to a motion sensor and provides one or more control signals based at least in part on the motion sensed by the motion sensor. A lens member includes a HDPE (high density polyethylene) lens and a lens mounting structure that includes a lens retention hook. A bracket defines an aperture in registration with the motion sensor and further defines a lens securement aperture configured to accommodate the lens retention hook. The bracket may also define a lens securement spring configured to provide a biasing force to the lens retention hook of the lens mounting structure.

公开(公告)号：US09880031B2

公开(公告)日：2018-01-30

申请号：US14575824

申请日：2014-12-18

Applicant: Douglas Lloyd Lockhart

Inventor： Douglas Lloyd Lockhart

IPC: G01F1/00 ,  G01K13/00 ,  F24F11/00

CPC classification number: G01F1/00 ,  F24F11/30 ,  F24F11/46 ,  F24F11/47 ,  F24F11/62 ,  F24F2110/00 ,  G01K13/00 ,  G01K2201/00

Abstract: A system and method for analyzing an HVAC/R system includes a receiver for receiving signals from sensors, a memory for storing a pressure-enthalpy relationship for refrigerant of the HVAC/R system, a processor in communication with the receiver and the memory, the processor configured to determine a first energy transfer value associated with an air handler of the HVAC/R system based on the received signals from the sensors, determine a second energy transfer value associated with the refrigerant of the HVAC/R system based on the pressure-enthalpy relationship and the received signals from the sensors; and verify the determined first and second energy transfer values by comparing the first energy transfer value with the second energy transfer value.

公开(公告)号：US09404815B2

公开(公告)日：2016-08-02

申请号：US14854449

申请日：2015-09-15

Applicant: Zhejiang DunAn Hetian Metal Co., Ltd.

Inventor： Parthiban Arunasalam ,  Wayne C. Long

IPC: G01K1/08 ,  G01K1/14 ,  G01K13/02 ,  G01K1/22 ,  G01K15/00

CPC classification number: G01K13/02 ,  G01K15/005 ,  G01K2013/026 ,  G01K2201/00

Abstract: A superheat sensor includes a housing, a pressure sensor mounted within the housing, and a processor. A fluid passageway connects the pressure sensor to a source of superheat fluid. An external temperature sensor is located outside the housing of the superheat sensor and is electrically connected to the processor. The external temperature sensor is also electronically connected to a component of a fluid system to which the superheat sensor is attached and is configured to provide one of an internal temperature of the component, an external temperature of the component, and a temperature of fluid in the component.

Abstract translation: 过热传感器包括壳体，安装在壳体内的压力传感器和处理器。 流体通道将压力传感器连接到过热流体源。 外部温度传感器位于过热传感器外壳的外部，并与处理器电连接。 外部温度传感器还电连接到过热传感器附接到的流体系统的部件，并且被配置为提供部件的内部温度，部件的外部温度以及部件中的流体的温度 零件。

公开(公告)号：US09366582B2

公开(公告)日：2016-06-14

申请号：US14301485

申请日：2014-06-11

Applicant: Fluid Handling LLC.

Inventor： Florin Rosca ,  Glenn E. Huse ,  Stanley P. Evans

IPC: F16K17/00 ,  G01F1/00 ,  G01K13/02 ,  F16K37/00 ,  G01F15/00 ,  G01F15/06 ,  F24D3/10 ,  F24D19/10

CPC classification number: G01K13/02 ,  F16K17/003 ,  F16K37/0091 ,  F24D3/1083 ,  F24D19/1048 ,  G01F1/00 ,  G01F15/005 ,  G01F15/063 ,  G01K2201/00 ,  Y10T137/86485

Abstract: A combination valve includes an isolation shutoff valve to prevent a fluid flow; a check valve to prevent backflow and gravity circulation of fluid flow; a pressure sensor to sense a pressure measurement of fluid flow and determine pressure sensor signaling containing information about a sensed pressure measurement; a temperature sensor to sense a temperature measurement of fluid flow and determine temperature sensor signaling containing information about a sensed temperature measurement; and a flow measurement sensor to sense a flow measurement of fluid flow and determine flow measurement signaling containing information about a sensed flow measurement. The pressure sensor, temperature sensor and flow measurement sensor are all embedded and preassembled in the combination valve with the isolation shutoff valve and the check valve as part of one integral composite unit or component, so as to form a combination isolation valve and check valve with integral flow rate, pressure and/or temperature measurement.

Abstract translation: 组合阀包括隔离截止阀，以防止流体流动; 止回阀，防止流体流动的回流和重力循环; 用于感测流体流动的压力测量的压力传感器，并且确定包含关于感测压力测量的信息的压力传感器信号; 用于感测流体流动的温度测量的温度传感器，并且确定包含关于感测温度测量的信息的温度传感器信号; 以及流量测量传感器，用于感测流体流动的流量测量并确定包含关于感测流量测量的信息的流量测量信号。 压力传感器，温度传感器和流量测量传感器均采用隔离截止阀和单向阀作为一体式复合单元或组件的一部分组装在组合阀中，以形成组合隔离阀和止回阀， 积分流量，压力和/或温度测量。

公开(公告)号：US09081394B2

公开(公告)日：2015-07-14

申请号：US13835742

申请日：2013-03-15

Applicant: Emerson Climate Technologies, Inc.

Inventor： Lawrence Kates

IPC: F25B1/00 ,  F25D9/00 ,  F25B41/00 ,  F25B49/00 ,  G05D23/19 ,  F24F3/16 ,  F24F11/00 ,  G01K13/00 ,  G01N15/08

CPC classification number: G05D23/1932 ,  F24F3/1603 ,  F24F11/30 ,  F24F11/39 ,  F24F11/47 ,  F24F11/56 ,  F25B49/00 ,  F25B49/005 ,  F25B2500/19 ,  F25B2600/07 ,  F25B2700/02 ,  F25B2700/133 ,  F25B2700/1351 ,  F25B2700/15 ,  F25B2700/151 ,  F25B2700/172 ,  F25B2700/1931 ,  F25B2700/1933 ,  F25B2700/195 ,  F25B2700/2106 ,  F25B2700/21151 ,  F25B2700/21152 ,  F25B2700/21161 ,  F25B2700/21163 ,  F25B2700/21172 ,  F25B2700/21173 ,  F25B2700/21174 ,  F25B2700/21175 ,  F25D2400/36 ,  G01K13/00 ,  G01K2201/00 ,  G01N15/0826 ,  G01N2015/084 ,  G01N2015/0846 ,  G05B15/02 ,  G05D23/1917 ,  G05D23/1928 ,  Y10S55/34 ,  Y10S116/25 ,  Y10S116/42

Abstract: A monitoring system for monitoring operation of a refrigerant-cycle system is disclosed. A condenser unit sensor measures an operating characteristic of a condenser unit, the condenser unit including a condenser and a compressor. An evaporator unit sensor measures an operating characteristic of an evaporator unit, the evaporator unit including an evaporator and a fan. An electrical sensor measures an electrical quantity indicative of power consumption of the refrigerant-cycle system. A processing system calculates an efficiency of the refrigerant-cycle system based on the power consumption of the refrigerant-cycle system, the operating characteristic of the condenser unit, and the operating characteristic of the evaporator unit.

Abstract translation: 公开了一种用于监视制冷剂循环系统的运行的监视系统。 冷凝器单元传感器测量冷凝器单元的工作特性，冷凝器单元包括冷凝器和压缩机。 蒸发器单元传感器测量蒸发器单元的操作特性，蒸发器单元包括蒸发器和风扇。 电传感器测量表示制冷剂循环系统的功率消耗的电量。 处理系统基于制冷剂循环系统的功率消耗，冷凝器单元的工作特性和蒸发器单元的工作特性来计算制冷剂循环系统的效率。

公开(公告)号：US09023136B2

公开(公告)日：2015-05-05

申请号：US13835621

申请日：2013-03-15

Applicant: Emerson Climate Technologies, Inc.

Inventor： Lawrence Kates

IPC: F24F13/00 ,  G05D23/19 ,  F24F3/16 ,  F24F11/00 ,  F25B49/00 ,  G01K13/00 ,  G01N15/08

CPC classification number: G05D23/1932 ,  F24F3/1603 ,  F24F11/30 ,  F24F11/39 ,  F24F11/47 ,  F24F11/56 ,  F25B49/00 ,  F25B49/005 ,  F25B2500/19 ,  F25B2600/07 ,  F25B2700/02 ,  F25B2700/133 ,  F25B2700/1351 ,  F25B2700/15 ,  F25B2700/151 ,  F25B2700/172 ,  F25B2700/1931 ,  F25B2700/1933 ,  F25B2700/195 ,  F25B2700/2106 ,  F25B2700/21151 ,  F25B2700/21152 ,  F25B2700/21161 ,  F25B2700/21163 ,  F25B2700/21172 ,  F25B2700/21173 ,  F25B2700/21174 ,  F25B2700/21175 ,  F25D2400/36 ,  G01K13/00 ,  G01K2201/00 ,  G01N15/0826 ,  G01N2015/084 ,  G01N2015/0846 ,  G05B15/02 ,  G05D23/1917 ,  G05D23/1928 ,  Y10S55/34 ,  Y10S116/25 ,  Y10S116/42

Abstract: A monitoring system for monitoring operation of a refrigerant-cycle system is disclosed. A first temperature sensor measures a first temperature of air at a first location downstream of an evaporator. A second temperature sensor measures a second temperature of air a second location upstream of the evaporator. A processing system determines a temperature drop across the evaporator based on the first temperature, the second temperature, and a humidity of air. The processing system that determines whether airflow through the evaporator is restricted based on the temperature drop across the evaporator.

Abstract translation: 公开了一种用于监视制冷剂循环系统的运行的监视系统。 第一温度传感器测量在蒸发器下游的第一位置处的空气的第一温度。 第二温度传感器测量蒸发器上游的第二位置处的空气的第二温度。 处理系统基于第一温度，第二温度和空气湿度确定蒸发器两端的温度下降。 确定基于蒸发器上的温度下降是否限制了通过蒸发器的气流的处理系统。

公开(公告)号：US20150110148A1

公开(公告)日：2015-04-23

申请号：US14585785

申请日：2014-12-30

Applicant: Zhejiang DunAn Hetian Metal Co., Ltd

Inventor： Parthiban Arunasalam ,  Wayne C. Long

IPC: G01K13/02 ,  G01K15/00

CPC classification number: G01K13/02 ,  G01K15/005 ,  G01K2013/026 ,  G01K2201/00

Abstract: A method of sensing superheat includes the steps of: (a) connecting a fluid inlet member of a superheat sensor to one of a plurality of fluid systems; (b) allowing fluid to flow from the fluid system to which the superheat sensor is connected to the superheat sensor; (c) sensing a temperature of the fluid in the fluid system with one of an internal temperature sensor mounted within a housing of the superheat sensor and an external temperature sensor mounted outside of the housing of the superheat sensor; and (d) calculating a superheat of the fluid in the fluid system.

Abstract translation: 感测过热的方法包括以下步骤：（a）将过热传感器的流体入口构件连接到多个流体系统中的一个; （b）允许流体从过热传感器连接到过热传感器的流体系统流动; （c）使用安装在过热传感器的壳体内的内部温度传感器中的一个和安装在过热传感器的壳体外部的外部温度传感器来感测流体系统中的流体的温度; 和（d）计算流体系统中的流体的过热度。