会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 6. 发明申请
    • System for detecting the production data of a number of textile machines
    • 用于检测多台纺织机的生产数据的系统
    • US20060079216A1
    • 2006-04-13
    • US10537023
    • 2003-12-03
    • Francisco Speich
    • Francisco Speich
    • H04M3/00
    • G05B19/41855D03J1/006D04B15/99D04B37/06G05B2219/25186G05B2219/31151G05B2219/31158G05B2219/31162G05B2219/33192Y02P90/185
    • The invention relates to a system comprising control computers (1) for controlling and detecting the operating data e.g. the speed, stoppage, cause of stoppage, etc., for each textile machine, and a central computer (2) for determining the production data. The control computers (1) and the central computer (2) respectively comprise means (3) for wireless signal transmission, and form, with a respectively associated transmission unit (4, 5), a radio network for signal transmission according to the WLAN or Bluetooth standard. The transmission units (4, 5) are connected by a telephone line (6), such that the control computers (1) and the central computer (2) can be positioned at any distance in relation to each other. In this way, the means required for the network are significantly reduced, the production data is determined in a centralised manner, and a centralised production control is achieved.
    • 本发明涉及一种包括控制计算机(1)的系统,用于控制和检测操作数据,例如, 每个纺织机器的速度,停止,停机原因等,以及用于确定生产数据的中央计算机(2)。 控制计算机(1)和中央计算机(2)分别包括用于无线信号传输的装置(3),并且具有分别关联的传输单元(4,5),根据WLAN或用于信号传输的无线电网络 蓝牙标准。 传输单元(4,5)通过电话线(6)连接,使得控制计算机(1)和中央计算机(2)可以相对于彼此定位在任何距离处。 以这种方式,网络所需的手段大大减少,生产数据以集中方式确定,并实现集中生产控制。
    • 9. 发明授权
    • Automated distributed control system for a weaving mill
    • 织机自动分布式控制系统
    • US4835699A
    • 1989-05-30
    • US28820
    • 1987-03-23
    • Jerry F. Mallard
    • Jerry F. Mallard
    • G05B19/042
    • D03J1/005D03D51/007D03J1/006G05B19/0421
    • An interactive real-time, distributed control system for textile weaving machines including real time, interactive bi-directional communications centrally manages the whole range of activities of a weaving room. Microcontrollers at each weaving machine control most of the routine weaving functions and operations, but communicate in real time with a central computer which provides large-scale data storage and analysis. Easy, consistent automatic machine set-ups result from electronically downloading cloth style and dobby control data from the central computer to the weaving machine microcontrollers. Because communications between the microcontrollers and the central computer as well as much of the analysis performed by the central computer occur interactively on a real time basis, correction and optimization of the weaving process at individual machines is possible, resulting in higher productivity and quality. Less of quality product is produced since weaving machines are stopped automatically when out-of-control conditions occur and/or real time adjustments in independent weaving variables (e.g., filling angle of release) are made.
    • 一种互动式实时分布式控制系统,包括实时交互式双向通讯的纺织机械集中管理编织室的整个活动范围。 每台织机上的微控制器都可以控制大部分的常规编织功能和操作,但可以与提供大规模数据存储和分析的中央计算机实时通信。 通过从中央计算机到编织机微控制器的电子下载布样式和多臂控制数据,可以实现简单,一致的自动机器设置。 由于微控制器与中央计算机之间的通信以及中央计算机执行的大部分分析是实时交互式进行的,所以可以在单个机器上对织造过程进行校正和优化,从而提高生产力和质量。 产生质量差的产品,因为在出​​现失控条件和/或进行独立编织变量(例如,释放的填充角度)的实时调整时织造机器自动停止。
    • 10. 发明授权
    • Device in a system operating with CAN-protocol and in a control and/or supervision system
    • 在CAN协议和控制和/或监控系统中运行的系统中的设备
    • US07386716B2
    • 2008-06-10
    • US10219351
    • 2002-08-16
    • Lars-Berno Fredriksson
    • Lars-Berno Fredriksson
    • H04B7/24
    • G05B19/042D03D51/007D03J1/005D03J1/006
    • A control or supervision system incorporates a digital serial communication and modules which are mutually communicable to this and operate with CAN-protocol. A control desk can be wirelessly connected to one or more modules operating with a signal protocol which takes no account of arbitration and/or confirmation functions appearing in the CAN-system. A particular receiving communication part executes the conversion of said signal protocol to the signal protocol of the CAN-system. A device for controlling a function in a first module in a CAN-system via a wireless connection to a second module in said system. A system of mutually separate units, whereof each unit operates with a CAN-signalling protocol, intercommunicable by means of radiocommunications operating with an identification system in which a key allocation between the units is based upon identities that are assigned by a module in the unit or a master system.
    • 控制或监控系统包含数字串行通信和可相互通信的模块,并与CAN协议一起工作。 控制台可以无线连接到一个或多个使用信号协议操作的模块,该信号协议不考虑出现在CAN系统中的仲裁和/或确认功能。 特定的接收通信部分执行所述信号协议到CAN系统的信号协议的转换。 一种用于通过与所述系统中的第二模块的无线连接来控制CAN系统中的第一模块中的功能的装置。 一个相互分离的单元的系统,其中每个单元利用CAN信令协议进行操作,通过与识别系统一起操作的无线电通信来进行通信,其中单元之间的密钥分配基于由该单元中的模块分配的身份, 一个主系统。