公开(公告)号：WO2017167697A1

公开(公告)日：2017-10-05

申请号：PCT/EP2017/057214

申请日：2017-03-27

Applicant: BASF SE

Inventor： BEHAM, Frank ,  KOLB, Stefan ,  BOECKMANN, Philipp Johannes ,  SANDLER, Jan Kurt Walter ,  FRICKE, Marc ,  JAMIN-MAGUIRE, Elsie ,  KROGMANN, Joerg

IPC: F25D3/06 ,  F25D11/00 ,  G01K1/02

Abstract: A transport container (100) for transporting an object (105) has an object location (104) to receive the object (105) and a vacuum insulation panel VIP (102-i) to thermally insulate the object location (104). A sensor unit (120-i) in the VIP provides a panel condition signal (PCS, 125-i) that corresponds to a measurement value of a physical property of the VIP. The physical property influences the temperature of the object (θ OBJECT). A short-distance transmitter unit (130-i) transmits a first coding (135-i) of the PCS inside the Container (100), a long-distance transmitter unit (140) transmits a second coding (145) of the PCS to a remote server (200) for processing the PSC. The server (200) determines a representation of an Operation State of the transport container, wherein the operation state is related to the temperature of the object (θ OBJECT). The material of the VIP is classified and differentiated so that transmitting parameters depend on the material.

Abstract translation: 用于运输物体（105）的运输容器（100）具有用于容纳物体（105）的物体位置（104）和真空绝热板VIP（102-i），以使绝热板 对象位置（104）。 VIP中的传感器单元（120-i）提供对应于VIP的物理属性的测量值的面板状态信号（PCS，125-i）。 物理属性影响物体的温度（θOBJECT）。 短距离发射机单元（130-i）在容器（100）内发送PCS的第一编码（135-i），长距离发射机单元（140）将PCS的第二编码 远程服务器（200），用于处理PSC。 服务器（200）确定运输容器的操作状态的表示，其中操作状态与对象的温度（θOBJECT）有关。 VIP的材料被分类和区分，以便传输参数取决于材料。

公开(公告)号：WO2021063877A1

公开(公告)日：2021-04-08

申请号：PCT/EP2020/077086

申请日：2020-09-28

Applicant: BASF SE

Inventor： WOLLNY, Andreas ,  BEHAM, Frank ,  WEICKERT, Mathias ,  SPOERRI, Carl

IPC: F25D11/00

Abstract: System (10) for evaluating the insulation properties of a thermally insulated transport unit (20) comprising: at least one thermally insulated transport unit (20) for transporting and/or storing goods, wherein the thermally insulated transport unit (20) comprises at least one temperature sensor means (30) configured to provide actual temperature data of the temperature within the thermally insulated transport unit (20); characterized in that at least one evaluation means for evaluating the insulation properties at least based on a comparison of actual temperature data and calculated temperature data based on a thermal model of the thermally insulated transport unit (20).