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
    • 43. 发明申请
    • APPARATUS AND OPERATING SYSTEMS FOR MANUFACTURING IMPREGNATED WOOD
    • 装置和操作系统用于制造被印制的木材
    • WO2010116262A1
    • 2010-10-14
    • PCT/IB2010/000991
    • 2010-04-09
    • KEBONY ASABENDIKTSEN, RuneEILERTSEN, MortenBRYNILDSEN, Per
    • BENDIKTSEN, RuneEILERTSEN, MortenBRYNILDSEN, Per
    • B27K5/04F26B21/06F26B25/00G05D21/00G05D22/00G05D27/00
    • B27K5/04B27K3/025B27K3/156F26B5/04F26B21/06F26B25/225F26B2210/16G05D27/02
    • Furfurylated wood (314) is produced in a two-chamber system in which monomer/oligomer impregnation (300) in an impregnation chamber (12) is followed by successive stages of drying (400) and curing (428) in a dedicated drying and curing chamber (204) initially set to dry impregnated wood (typically at a reduced pressure) and then to cure the at least partially dried, impregnated wood. Physical properties of wood under treatment are measured (412, 414, 434, 436), recorded (306, 342) and referenced (310, 342, 418, 450) into a database (34) that accumulates wood species data relating to applied temperature and pressure profiles, physical properties and appearance of intermediate and finished samples of wood and also chemical treatment regimes, including soak time and monomer/oligomer concentrations. During drying and curing, monitoring (430-436) of process parameters, including water removal and/or atmospheric conditions, are used by a controller (32) both to control and determine a state of process completion by comparing recorded data with historically accumulated data or process set point conditions. Physical and/or chemical attributes of finally processed wood (314) are used in an automated control loop to modify (456), reactively or in real time, applied treatment regimes (314, 404) for specific wood species and wood profiles.
    • 糠醛化木材(314)在双室系统中生产,其中浸渍室(12)中的单体/低聚物浸渍(300)在专用干燥和固化之后是连续的干燥阶段(400)和固化(428) 初始设置干燥的浸渍木材(典型地为减压),然后固化至少部分干燥的浸渍木材的室(204)。 测量被处理木材的物理性质(412,414,434,463),记录(306,342)并参考(310,342,418,450)到数据库(34)中,累积与应用温度相关的木材数据 和中间和成品木材的压力特性,物理性能和外观以及化学处理方式,包括浸泡时间和单体/低聚物浓度。 在干燥和固化期间,控制器(32)使用过程参数(包括除水和/或大气条件)的监测(430-436)来控制和确定过程完成的状态,将记录的数据与历史累积的数据进行比较 或过程设定点条件。 最终加工的木材(314)的物理和/或化学属性用于自动化控制回路中,以针对特定木材种类和木材特性对反应性或实时应用的处理方案(314,404)进行修改(456)。
    • 44. 发明申请
    • DEHUMIDIFYING DEVICE FOR PLASTICS MATERIALS
    • 用于塑料材料的除湿装置
    • WO2010109403A1
    • 2010-09-30
    • PCT/IB2010/051234
    • 2010-03-22
    • SCHIAVOLIN, Christian
    • SCHIAVOLIN, Christian
    • F26B3/30F26B9/08F26B5/04
    • F26B9/085F26B3/30F26B5/04
    • A dehumidifying device (1; 1, 1') for plastics materials, comprising a container body (2; 2, 2') suitable for receiving a predefined amount of plastics material, processing means (20, 30) operatively associated with a processing region provided in said container body (2; 2, 2') for dehumidifying said plastics material in said container body (2; 2, 2'), and a conveying device (13, 13a, 13b, 13c, 18) provided in a conveying region of said container body (2; 2, 2') for conveying said plastics material to said processing means (20, 30) wherein said conveying device (13, 13a, 13b, 13c, 18) is configured in such a manner as to convey the plastics material in a conveying direction (F1) different from an advancing direction (F) of said plastics material in said container body (2; 2, 2').
    • 一种用于塑料材料的除湿装置(1; 1,1'),包括适于接收预定量的塑料材料的容器主体(2; 2,2'),与处理区域可操作地相关联的处理装置(20,30) 设置在所述容器主体(2; 2,2')中,用于对所述容器主体(2; 2,2')中的所述塑料进行除湿;以及输送装置(13,13a,13b,13c,18) 所述容器主体(2; 2,2')的区域用于将所述塑料材料输送到所述处理装置(20,30),其中所述输送装置(13,13a,13b,13c,18)以如下方式构造: 在与所述容器主体(2,2')中的所述塑料材料的前进方向(F)不同的传送方向(F1)上传送塑料材料。
    • 46. 发明申请
    • SYSTEM AND METHOD FOR PREPARING A CONTAINER LOADED WITH WET RADIOACTIVE ELEMENTS FOR DRY STORAGE
    • 用于干燥储存的湿式放射性元素装载集装箱的系统和方法
    • WO2009120246A2
    • 2009-10-01
    • PCT/US2008088075
    • 2008-12-22
    • HOLTEC INTERNATIONAL INCSINGH KRISHNA PGRIFFITHS JOHN D
    • SINGH KRISHNA PGRIFFITHS JOHN D
    • F26B3/04F26B21/04F26B21/08F26B21/14F26B25/16
    • G21F5/06F26B5/04F26B5/12F26B21/08F26B21/14G21C19/32G21F5/008G21F9/34
    • A system and method for preparing a container holding high level radioactive waste for dry storage. In one aspect, the invention is a method of preparing a canister having a cavity loaded with wet radioactive elements for dry storage, the method comprising: (a) providing a gas circulation system comprising a condensing module, a desiccant module, a gas circulator module; (b) connecting the gas circulation system to the canister so as to form a hermetically sealed closed-loop path that includes the cavity; (c) filling the hermetically sealed closed-loop path with a non-reactive gas; (d) circulating the non-reactive gas through the hermetically sealed closed-loop path until the condensing module is no longer removing substantial amounts of water from the circulating non-reactive gas, wherein the desiccant module is sealed off from the hermetically sealed closed-loop path during step (d); and (e) adding the desiccant module to the hermetically sealed closed-loop path and continuing to circulate the non-reactive gas through the hermetically sealed closed-loop path, the desiccant module dehumidifying the circulating the non-reactive gas. In another aspect, a system and method is disclosed wherein the second phase of drying is performed by a vacuum module rather than the desiccant module to achieve the desired dryness level, the vacuum module being switched into the closed loop after the first phase of drying is completed.
    • 一种用于制备容纳高放射性废物用于干燥储存的容器的系统和方法。 一方面,本发明是一种制备罐的方法,所述罐具有装载有用于干燥储存的湿放射性元件的空腔,所述方法包括:(a)提供气体循环系统,其包括冷凝模块,干燥剂模块,气体循环器模块 ; (b)将所述气体循环系统连接到所述罐,以便形成包括所述空腔的密封的闭环路径; (c)用非反应性气体填充密封的闭环路径; (d)使非反应性气体循环通过密封的闭环路径,直到冷凝模块不再从循环的非反应性气体中除去大量的水,其中干燥剂模块与气密密封的闭环通道密封, 步骤(d)期间的循环路径; 和(e)将干燥剂模块添加到密封的闭环路径中并且继续使非反应气体通过密封的闭环路径循环,干燥剂模块对循环非反应性气体进行除湿。 在另一方面,公开了一种系统和方法,其中第二阶段的干燥由真空模块而不是干燥剂模块进行,以实现所需的干燥度,在第一阶段的干燥之后,真空模块切换到闭环 完成。
    • 48. 发明申请
    • 被洗浄物の洗浄方法及びその装置
    • 清洁对象要清洁的方法及其设备
    • WO2006129402A1
    • 2006-12-07
    • PCT/JP2006/303039
    • 2006-02-21
    • ジャパン・フィールド株式会社内野 正英
    • 内野 正英
    • B08B3/08F26B5/04
    • B08B3/00B08B3/04B08B2230/01F26B5/04
    • [PROBLEMS] To perform immersion cleaning under reduced pressure, steam cleaning under reduced pressure, or drying under reduced pressure using a small pressure tubular body. When cleaning work is performed while containing an object to be cleaned in a small pressure tubular body having openings at the upper and lower ends. The cleaned object can be taken out by simply elevating the pressure tubular body after the cleaning, and the post-treatment of the cleaned object is facilitated. [MEANS FOR SOLVING PROBLEMS] A pressure tubular body (1) having openings (2, 3) at the upper and lower ends and not connected with a steam piping, a vacuum piping, or the like has a strength sufficient to withstand against pressure reduction when an object (4) to be cleaned and contained inside while closing the openings (2, 3) at the upper and lower ends is subjected to immersion cleaning under reduced pressure, steam cleaning under reduced pressure, or drying under reduced pressure. The openings (2, 3) at the upper and lower ends of the pressure tubular body (1) can be closed with pressure lids (11, 12) which can be opened/closed, and the pressure lids (11, 12) are connected with a pressure reduction mechanism (114) and/or a steam generation mechanism (15).
    • [问题]在减压下进行浸渍清洗,减压蒸汽清洗,或使用小压力管体在减压下干燥。 当在具有在上端和下端具有开口的小压力管体中包含待清洁物体时进行清洁工作。 清洁后的物体可以通过在清洁之后简单地升高压力管体而被取出,并且便于清洁物体的后处理。 解决问题的手段在上端和下端具有开口(2,3)并且不与蒸汽管道,真空管道等相连的压力管体(1)具有足以抵抗减压的强度 当在上下端关闭开口(2,3)时待清洗并容纳的物体(4)在减压下进行浸渍清洗,减压蒸汽清洗或减压干燥。 在压力管体(1)的上端和下端处的开口(2,3)可以用可以打开/关闭的压力盖(11,12)封闭,并且压力盖(11,12)连接 具有减压机构(114)和/或蒸汽发生机构(15)。
    • 49. 发明申请
    • 減圧下における物質の低温乾燥方法とその装置
    • 真空下物质低温干燥的方法及其设备
    • WO2006077656A1
    • 2006-07-27
    • PCT/JP2005/001175
    • 2005-01-21
    • 八木 俊一
    • 八木 俊一
    • F26B3/347F26B5/06
    • F26B5/04F26B21/14
    • [PROBLEMS] Liquid nitrogen is introduced into a vacuum tank and allowed to instantly vaporize to saturation, and this vapor is utilized for cooling a substance. Thus, the substance is dried at a low temperature to an extremely low residual liquid content. The drying is completed in a short time. The drying gives the substance no serious damage such as contamination or oxidation. [MEANS FOR SOLVING PROBLEMS] A method of drying a substance at a low temperature under vacuum which comprises a drying step for removing volatile liquids such as water and an alcohol from the substance, the step being conducted in the following manner. At the stage where the amount of the residual liquids has become small and the temperature of the substance has become apt to rise because of a reduced amount of the heat of vaporization in the substance, the pressure is reduced for a given period. Subsequently, liquid nitrogen is introduced into the vacuum tank to allow it to instantly vaporize to recover a given pressure. The low temperature of the liquid nitrogen which has been thus vaporized to saturation in the vacuum tank is utilized to lower the temperature of the substance. The step is conducted one or more times. Thus, liquids such as water and an alcohol are removed at a low temperature.
    • [问题]将液氮引入真空罐中并立即蒸发至饱和,并将该蒸气用于冷却物质。 因此,物质在低温下干燥至极低的残留液体含量。 干燥在短时间内完成。 干燥使物质不会受到严重的损害,例如污染或氧化。 解决问题的手段一种在真空下低温干燥物质的方法,其包括从物质中除去挥发性液体如水和醇的干燥步骤,该步骤以下列方式进行。 在物质的蒸发热量减少的情况下,残留液体的量变小,物质的温度变得容易上升的阶段,压力降低一定时间。 随后,将液氮引入真空槽中,使其立即蒸发以回收给定的压力。 利用在真空槽中蒸发至饱和的液氮的低温来降低物质的温度。 该步骤进行一次或多次。 因此,在低温下除去水和醇等液体。
    • 50. 发明申请
    • PRESSURE CONTROL IN CENTRIFUGAL EVAPORATORS
    • 离心蒸发器压力控制
    • WO2004040214A1
    • 2004-05-13
    • PCT/GB2003/004681
    • 2003-10-29
    • GENEVAC LTDLEE-SMITH, Roger
    • LEE-SMITH, Roger
    • F26B5/04
    • F26B5/04
    • A method of controlling the pressure within a chamber (12) of a drying apparatus (10) from which air and vapour is removed by a pump (30), which is operated continuously during the drying process. If both of a vent valve (18) and a pressure control valve (32) is opened, air at atmospheric pressure is drawn by the pump (30) directly from the pressure control valve (32), and via the chamber (12) and a non-return valve (26) from the vent valve (18). When the pressure in the chamber (12) is to be reduced both vent and pressure control valves (18, 32) are closed to allow the pump (30) to remove air, gas and vapour from the chamber (12) via the non-return valve.(26). After a required chamber pressure has been reached, the pressure control valve (32) is opened while the vent valve (18) remains closed
    • 一种控制干燥设备(10)的腔室(12)内的压力的方法,通过在干燥过程中连续操作的泵(30)将空气和蒸气从该干燥设备(10)中除去。 如果打开排气阀(18)和压力控制阀(32),则直接从压力控制阀(32)通过泵(30)抽吸大气压的空气,经由室(12)和 来自排放阀(18)的止回阀(26)。 当要减小腔室(12)中的压力时,排气和压力控制阀(18,32)都被关闭,以允许泵(30)经由非空气阀从腔室(12)中除去空气,气体和蒸汽, 回流阀(26)。 在达到所需的室压力之后,压力控制阀(32)在通气阀(18)保持关闭的同时打开