首页> 外国专利> the display u0434u043bu00a0 u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 resource testing of heat exchanger, u0440u0435u0433u0443u043bu00a0u0442u043eu0440 speed u0438u0437u043cu0435u043du0435u043du0438u00a0 temperature flow and a heat exchanger u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 resource testing and

the display u0434u043bu00a0 u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 resource testing of heat exchanger, u0440u0435u0433u0443u043bu00a0u0442u043eu0440 speed u0438u0437u043cu0435u043du0435u043du0438u00a0 temperature flow and a heat exchanger u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 resource testing and

机译：显示屏 u0434 u043b u00a0 u043f u0440 u043e u0432 u0435 u0434 u0435 u043d u0438 u00a0热交换器的资源测试 u0440 u0435 u0433 u0433 u0443 u043b u00a0 u0442 u043e u0440速度 u0438 u0437 u043c u0435 u043d u0435 u043d u0438 u00a0温度流量和热交换器 u043f u0440 u043e u0432 u0435 u0434 u0435 u043d u043d u0438 u00a0资源测试和

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摘要

1.the display u0434u043bu00a0 u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 resource testing heat exchanger containing the connected to the u0433u043eu0440u00a0u0447u0435u0439 and cold u043fu043eu043bu043eu0441u0442u00a0u043c line of u0433u043eu0440u00a0u0447 test of heat exchanger and the cold air input controlled flaps, the heater installed in the line of u0433u043eu0440u00a0u0447u0435u0433u043e air, and has a heater for u043fu043eu0441u043bu0435u0434u043du00a0u00a0 u0442u0432u0435u0442u0432u043bu0435u043du0438u0435 reported with atmosphereas well as the discharge of air from the cavity with the flaps and a remote control unit with program management, functional u0441u0432u00a0u0437u0430u043du043du044bu0439 driven dampers, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 order what to u043fu043eu0432u044bu0448u0435u043du0438u00a0 accuracy obtained with the u0438u0441u043fu044bu0442u0430u043du0438u00a0u0445 results, the heater is u0441u0435u043au0446u0438u043eu043du043du044bu043c, u043bu0438u043du0438u00a0 of u0433u043eu0440u00a0u0447u0435u0433u043e air between the u0441u0435u043au0446u0438u00a0u043cu0438 u043du0430u0433u0440u0435u0432u0430u0442u0435u043bu00a0 shared linewith u0440u0435u0433u0443u043bu00a0u0442u043eu0440u043eu043c u0434u0430u0432u043bu0435u043du0438u00a0 and additional adjustable flap with a cold heat exchanger and a complete line of cold air, in which the entrance noah managed with introduced u0442u0443u0440u0431u043eu0432u0435u043du0442u0438u043bu00a0u0442u043eu0440u043du0430u00a0 installation and a non-return valve with a safety u0437u0430u043au0440u044bu0442u0438u00a0, ramifications is another u0440u0435u0433u0443u043bu00a0u0442u043eu0440 u0434u0430u0432u043bu0435u043du0438 u00a0,in the line of u0433u043eu0440u00a0u0447u0435u0433u043e air after u043eu0442u0432u0435u0442u0432u043bu0435u043du0438u00a0 - u043fu0440u043eu043cu0435u0436u0443u0442u043eu0447u043du0430u00a0 u0440u0435u0433u0443u043bu0438u0440u0443u0435u043cu0430u00a0 damper and sensor temperature, electrically u0441u0432u00a0u0437u0430u043du043du044bu0439 via the u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 egr u0443u043bu00a0u0442u043eu0440u0430 speed u0438u0437u043cu0435u043du0435u043du0438u00a0 temperature air stream with a record additional dampers in the conduit and through the return valve is u0437u0430u043au0440u044bu0442u0438u00a0 industrial u0435u0436u0443u0442u043eu0447u043du043eu0439 flap in the line of u0433u043eu0440u00a0u0447u0435u0433u043e airin this u043bu0438u043du0438u00a0 of cold air entering into the cold cavity communicated u043eu0431u0432u043eu0434u043du044bu043c pipeline with a valve with a line of u0433u043eu0440u00a0u0447u0435u0433u043e air between the right u0442u0447u0438u043au043eu043c temperature and an intermediate flap and u043bu0438u043du0438u00a0 discharge air from the u0433u043eu0440u00a0u0447u0435u0439 cavity is equipped with u0440u0435u0433u0443u043bu00a0u0442u043eu0440u043eu043c air consumption in the form of a functionally u0441u0432u00a0u0437u0430u043du043du044bu0445 u043cu0435u0436u0434 have a u043cu0435u0440u043du043eu0433u043e device and u0432u044bu0447u0438u0441u043bu0438u0442u0435u043bu044cu043du043e - regulating unitelectrically connected to the transmission output of the divider line, and the temperature sensor installed in front of a flap, the latter u044du043bu0435u043au0442u0440u0438u0447u0435u0441u043a and u0441u0432u00a0u0437u0430u043d via the u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 drive output divider line of cold air from the cavity.;2.u0440u0435u0433u0443u043bu00a0u0442u043eu0440 speed u0438u0437u043cu0435u043du0435u043du0438u00a0 temperature flux containing consistently united measuring pavement scheme, which included the u0442u0435u043cu043fu0435u0440u0430u0442u0443 shoulder might flow amplifier, adder and a relay amplifier in the inertial feedback u0441u0432u00a0u0437u044cu044e and regulating valve installed in the channel, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 those wh oh, to u043fu043eu0432u044bu0448u0435u043du0438u00a0 accuracy obtained with the u0438u0441u043fu044bu0442u0430u043du0438u00a0u0445 resultsit is further provided with u0438u043du0442u0435u0433u0440u0438u0440u0443u044eu0449u0438u043c knots, the knot at the entrance to the u0437u0430u0434u0430u043du0438u00a0 speed and starting element and functional converter, the with the node in the set of functional dependence, and functional converter at the output of an integrator u0441u0432u00a0u0437u0430u043d node and at the exit of u0441u0443u043cu043cu0430u0442u043eu0440u043eu043c.;3.method u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 resource testing heat exchanger by blowing air flows of both cavities, and the purging process u0433u043eu0440u00a0u0447u0435u0439 cavity lead to u043fu0435u0440u0438u043eu0434u0438u0447u0435u0441u043a oh, change of temperature from the temperature of the flow, u043fu0440u043eu0434u0443u0432u0430u044eu0449u0435u0433u043e another cavity, to the maximum working back and forth,and the duration of each period of time to stabilize the temperature of the surface of the heat exchanger are respectively at the level of maximum working t u0435u043cu043fu0435u0440u0430u0442u0443u0440u044b and level of temperature, flow, u043fu0440u043eu0434u0443u0432u0430u044eu0449u0435u0433u043e another cavity, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 so that, with a view to u043fu043eu0432u044bu0448u0435u043du0438u00a0 accuracy of testing results.change of temperature in the u0433u043eu0440u00a0u0447u0435u0439 cavity u043eu0441u0443u0449u0435u0441u0442u0432u043bu00a0u044eu0442 with predetermined flow and rate of flow and temperature u0438u0437u043cu0435u043du0435u043du0438u00a0 depending on the last u0438u0437u043cu0435u043du00a0u044eu0442 u0440u0430u0441u0445 from the flow of the cold cavity, and the temperature of the flow in the cold cavity in an ambient temperature, the minimum possible u0443u0441u043bu043eu0432u0438u00a0u0445 u044du043au0441u043f u043bu0443u0430u0442u0430u0446u0438u0438.

机译：1.显示屏 u0434 u043b u00a0 u043f u0440 u043e u0432 u0435 u0434 u0435 u043d u0438 u00a0资源测试换热器，其中包含与 u0433 u043e u04e u0440 u00a0 u0447 u0435 u0439和冷 u0433 u043e u0440 u00a0 u0447的测试线，测试热交换器和冷空气输入控制阀瓣，将加热器安装在 u0433 u043e u0440 u00a0 u0447 u0435 u0433 u043e空气线，并具有用于 u043f u043e u0441 u043b u0435 u0434 u043d u00a0 u00a0 u0442 u0432 u0435 u0442 u0432 u043b u0435 u043d u0438 u0435报告有大气以及带有阀瓣和带有程序管理功能的远程控制单元从腔中排出的空气，功能为 u0441 u0432 u00a0 u0437 u0430 u043d u043d u044b u0439从动风门， u043e u0442 u043b u0438 u0447 u0430 u044e u0449 u0438 u0439 u0441 u00a0订购 u043f u043e u0432 u0432 u044b u0448 u0435 u043d u0438 u0441 u043f u04获得的精度 u0438 u00a0 4b u0442 u0430 u043d u0438 u00a0 u0445结果，加热器为 u0441 u0435 u043a u0446 u0438 u043e u043d u043d u043d u044b u043c， u043b u0438 u043d u0438 u00a0 u0433 u043e u0440 u00a0 u0447 u0435 u0433 u043e在 u0441 u0435 u043a u0446 u0438 u00a0 u043c u0438 u043d u0430 u0433 u0440 u0435 u0432 u04 u0442 u0435 u043b u00a0与 u0440 u0435 u0433 u0443 u043b u00a0 u0442 u043e u0440 u043e u043c u0434 u0430 u04330 u0432 u043b u0435 u043d u0438和u0438a可调线路带有一个冷热交换器和一整套冷空气的风门，其中入口诺亚采用引入的 u0442 u0443 u0440 u0431 u043e u0432 u0435 u043d u0442 u0438 u043b u00a0 u0442 u043e u0440 u043d u0430 u00a0安装和带有安全性的止回阀 u0437 u0430 u043a u0440 u044b u0442 u0438 u00a0，后果是另一个 u0440 u0435 u0433 u0443 u043b u00a0 u0442 u043e u0440 u0434 u0430 u0432 u043b u0435 u043d u0438 u00a0，位于 u0433 u043e u0440 u00a0 u0447 u0 435 u0433 u043e后 u043e u0442 u0432 u0435 u0442 u0432 u043b u0435 u043d u0438 u00a0- u043f u0440 u043e u043c u0435 u0436 u0443 u0442 u043e u043e u043d u0430 u00a0 u0440 u0435 u0433 u0443 u043b u0438 u0440 u0443 u0435 u043c u0430 u00a0阻尼器和传感器温度，电气 u0441 u0432 u00a0 u0437 u0430 u043d u043d u044b u0439通过 u0443 u043f u0440 u0430 u0432 u043b u0435 u043d u04d u0438 u00a0 egr u0443 u043b u00a0 u0442 u043e u0440 u0430速度 u0438 u0437 u043c u043d u0435 u043d u0438 u00a0温度管道中有创纪录的附加风门，并通过回流阀的是 u0437 u0430 u043a u0440 u044b u0442 u0438 u00a0工业 u0435 u0436 u0443 u0442 u043e u0447 u043d u043e u0439翼片位于 u043b u043e u0440 u00a0 u0447 u0435 u0433 u043e u043e的管路中，这是因为 u043b u0438 u043d u043d u0438 u00a0冷腔通过带有 u0433 管线的阀门连通 u043e u0431 u0432 u043e u0434 u043d u044b u043c管道u043e u0440 u00a0 u0447 u0435 u0433 u043e介于右侧 u0442 u0447 u0438 u043a u043e u043c温度和中间挡板之间的空气，以及 u043b u0438 u043d u043d u0438 u00a0排出空气u0433 u043e u0440 u00a0 u0447 u0435 u0439腔中装有 u0440 u0435 u0433 u0443 u043b u00a0 u0442 u043e u0440 u043e u043c功能上为 u0441 u0432 u00a0 u0437 u0430 u043d u043d u044b u0445 u043c u0435 u0440 u043d u0434具有 u043c u0435 u0440 u043d u043e u0433 u043e设备和 u0432 u044b u0447 u0438 u0441 u043b u0438 u0442 u0435 u043b u044c u043d u043e-调节单元，电连接到分频器的变速器输出端，温度传感器安装在襟翼的前面，后者位于襟翼的前面， u044d u043b u0435 u043a u0442 u0440 u0438 u0447 u0435 u0441 u043a和 u0441 u0432 u00a0 u0437 u0430 u043d通过 u0443 u043f u0440 u0430 u0432 u043b u0435 u043d u0438驱动来自腔体的冷空气的输出分隔线。; 2. u0440 u0435 u 0433 u0443 u043b u00a0 u0442 u043e u0440速度 u0438 u0437 u043c u0435 u043d u0435 u043d u0438 u00a0温度通量包含一致的测量路面方案，其中包括 u0442 u0435 u043c u043f u0435 u0440 u0430 u0442 u0443在惯性反馈 u0441 u0432 u00a0 u0437 u044c u044e和安装在通道中的调节阀 u043e u0442中，肩部可能会流放大器，加法器和继电器放大器 u043b u0438 u0447 u0430 u044e u0449 u0438 u0439 u0441 u0024 u0448 u043f u043e u0432 u0442 u044b u0448 u0435 u043d u043d u0438 u00a0的精度为 u0438 u0441 u043f u044b u0442 u0430 u043d u0438 u00a0 u0445结果进一步提供了 u0438 u043d u0442 u0435 u0433 u0440 u0438 u0440 u0443 u044e u0449 u0438 u043c结速度与启动元件和功能转换器的入口处的结，并与该功能集合中的节点有关，以及在积分器 u0441 u0432 u00a0 u0437 u0430 u043d节点的输出处和 u0441 u0443 u043c u043c u043c u0430 u0442 u043e u0440 u043e u043c的出口处的函数转换器。 3.通过吹送两个腔体的空气流以及吹扫过程 u043f u0440 u043e u0432 u0435 u0434 u0435 u043d u0438 u00a0资源测试换热器 u0433 u043e u0440 u00a0 u0447 u0435 u0439腔体导致 u043f u0435 u0440 u0438 u043e u0434 u0438 u0447 u0435 u0441 u043a哦，温度随流动温度的变化而变化， u043f u0440 u043e u0434 u0434另一个腔体，以最大的来回工作量以及稳定热交换器表面温度的每个时间段的持续时间分别处于最大工作温度t u0435 u043c u043f u0435 u0440 u0430 u0442 u0443 u0440 u044b和温度，流量， u043f u0440 u043e u0434 u0443 u0432 u0432 u0430 u044e u0449 u0435 u0433 u043e另一个空腔 u0 43e u0442 u043b u0438 u0447 u0430 u044e u0449 u0438 u0439 u0441 u00a0，以便针对 u043f u043e u0432 u044b u0448 u0435 u043d u043d u0438 u00a0测试结果。具有预定流量的 u0433 u043e u0440 u00a0 u0447 u0435 u0439腔中的温度变化 u043e u0441 u0443 u0449 u0435 u0431 u0441 u0442 u0432 u043b u043b u00a0 u044e u0442和流量和温度的速率 u0438 u0437 u043c u0435 u043d u0435 u043d u0438 u00a0，具体取决于最后一个 u0438 u0437 u043c u0435 u043d u00a0 u044e u0442 u0440 u0430 u0441从环境中的冷腔流动和冷腔中的流动温度出发，可能的最小值为最小的可能值。 u043f u043b u0443 u0430 u0442 u0430 u0446 u0438 u0438。

著录项

公开/公告号SU1614629A1

专利类型
公开/公告日2006-10-10

原文格式PDF
申请/专利权人 АБРОСИМОВ Ю.Н.;
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申请/专利号SU19884406653
发明设计人 АБРОСИМОВ Ю.Н.;РОМАНОВ В.К.;НИКУЛИН В.В.;ЩЕРБАКОВ А.В.;ВОРОНИН В.Г.;СОЛТАЙС Э.А.;
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申请日1988-04-07
分类号G01M13/00;F28F13/10;
国家 SU
入库时间 2022-08-21 21:21:10

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