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    • 1. 发明申请
    • LAYING DOWN HALF CARCASSES
    • 放下半边框
    • WO2008019688A1
    • 2008-02-21
    • PCT/DK2007/000373
    • 2007-08-15
    • KJ INDUSTRIES A/SNIELSEN, Erik, VindKRÜGER, Peter
    • NIELSEN, Erik, VindKRÜGER, Peter
    • A22B5/00A22B7/00
    • A22B7/005A22B7/003
    • A device, a system and a method for laying down carcase sides (102; 104) of e.g. pig or cattle from an overhead conveyor (108) to a working surface (114) wherein right and left carcase sides (102; 104) are conveyed by the overhead conveyor (108) in a transport direction. The carcase sides are conveyed past a laying-down support structure (120; 122; 124) comprising right and left laying down support elements (120; 122; 124) extending in different directions relative to a central part of the support structure, such as in a V-shape. The carcase sides (102; 104) and the laying-down support elements (120; 122; 124) may be mutually displaced transversely to the transport direction so as to control the orientation and positioning of carcase sides (102; 104) which are laid down on the working surface (114). Displacement may occur by stationary means such as a branching-off device (126) forcing the carcase sides sideways away from their freely suspended position, or by movable means, such as a frame (138) which is movable transversely to the transport direction, and on which the laying-down support elements (120; 122; 124) are arranged.
    • 一种用于铺设例如衣物的箱子侧面(102; 104)的装置,系统和方法。 从顶部输送机(108)到工作表面(114)的猪或牛,其中右侧和左侧箱体侧面(102; 104)由输送方向上的架空输送机(108)输送。 将箱体的两侧传送通过一个铺设下来的支撑结构(120; 122; 124),该支撑结构包括相对于支撑结构的中心部分沿不同方向延伸的向左和向下放置的支撑元件(120; 122; 124) 呈V形。 所述箱体侧面(102; 104)和所述铺设的所述支撑元件(120; 122; 124)可以横向于所述输送方向相互位移,以便控制放置的箱子侧面(102; 104)的取向和定位 在工作表面(114)上。 位移可以通过固定装置来实现,例如分离装置(126)将箱体侧面侧向远离其自由悬挂位置,或通过可移动装置,例如横向于运输方向移动的框架(138),以及 其上布置有铺设的支撑元件(120; 122; 124)。
    • 2. 发明申请
    • METHOD FOR RECYCLING COMPOSITE MATERIALS
    • 回收复合材料的方法
    • WO02088277A8
    • 2003-11-20
    • PCT/DK0200268
    • 2002-04-25
    • NORDISK AEROFORM APSGROVE-NIELSEN ERIK
    • GROVE-NIELSEN ERIK
    • B09B3/00B29B17/02C03C25/00C08J11/12C10B19/00C10B49/02C10B53/00C10B53/07
    • B29B17/02B29B2017/0496B29K2105/06B29K2709/08C03C25/002C10B19/00C10B49/02C10B53/00C10B53/07Y02P20/143Y02W30/622Y02W30/625
    • The invention relates to a method for recovering the glass fibres from composite materials in connection with recycling. This is of particular importance in connection with recycling of glass fibre blades from wind turbines and other fibre reinforced composite materials of the type where glass fibre is embedded in a matrix of polyester, epoxy or a similar polymeric substance or a thermoplastic material. The method of the invention consists in a thermal process in which the material is pyrolysed at a relatively low temperature in a closed furnace chamber with an inactive atmosphere, for example in the form of nitrogen. The temperature and combustion conditions are chosen such that the matrix is glasified while the glass fibres remain intact, thus making recycling possible. The by-product of the pyrolysis is combustible gas, which is carried off from the furnace. The energy in the gas may be utilised for a number of objects, such as: propellant for gas engines in combined heat and power plants or storage for later use. Alternatively, the gas may be burned with a minimum of environmentally damaging wastes, if combustion takes place in the temperature range of 1000-1200 DEG C.
    • 本发明涉及一种从再循环中回收复合材料中的玻璃纤维的方法。 这对于将玻璃纤维叶片从风力涡轮机和其它玻璃纤维嵌入聚酯,环氧树脂或类似聚合物或热塑性材料的基质中的其它纤维增强复合材料再循环是特别重要的。 本发明的方法在于一种热处理,其中在具有惰性气氛的封闭炉室中,例如以氮的形式,材料在相对低的温度下热解。 选择温度和燃烧条件使得当玻璃纤维保持完整时,基体被光滑化,从而使回收成为可能。 热解的副产物是从炉中排出的可燃气体。 气体中的能量可以用于许多物体,例如:用于燃气发动机的推进剂,用于组合的热电厂或储存用于以后使用。 或者,如果在1000-1200℃的温度范围内发生燃烧,则可以用最小的环境破坏性废物燃烧气体。
    • 3. 发明申请
    • CABLE GUIDE FOR HOISTING DEVICES
    • 电缆设备电缆指南
    • WO1992005102A1
    • 1992-04-02
    • PCT/SE1990000616
    • 1990-09-26
    • BROMMA CONQUIP ABNIELSEN, Erik
    • BROMMA CONQUIP AB
    • B66C13/14
    • H02G11/00B66C1/101B66C13/14Y10S414/131
    • The present invention relates briefly to an arrangement for hoisting devices to keep a cable (10) substantially vertically stretched between a derrick or similar and a hoisting device, e.g. a derrick bridle (1), so that the cable will not be able to be depositioned by gusts and other factors. The arrangement consists of a set of brackets (12) stretched between and glidably fixed to two opposed hoisting cords (2a, 4a), the brackets (12) being equipped with a ring (13) approximately at their centre, through which ring the cable (10) is running with an increasing inner diameter for each ring (13) from the top downwards. To the cable (10) are fastened a set of elements (14) spaced apart with increasing diameter for each element from the top downwards for each inner diameter of the rings (13) so that each element (14) one by one is restricted to pass a corresponding ring (13) and thereby each is hoisting one by one a bracket (12) holding the cable (10).
    • 本发明简要地涉及用于提升装置的装置,以保持电缆(10)在井架或类似物和起重装置之间基本上垂直拉伸,例如, 一个井架桁架(1),使电缆不能被阵风等因素沉积。 该装置由一组在两个相对的提升绳索(2a,4a)之间伸展并可滑动地固定在两个相对的提升绳索(2a,4a)上的托架(12)组成,托架(12)大致在其中心配有环(13) (10)从顶部向下运动,每个环(13)的内径增加。 对于电缆(10),针对环(13)的每个内径,从顶部向下的每个元件以一定的直径间隔开一组元件(14),使得每个元件(14)被一个一个地限制在 通过相应的环(13),从而各自一个一个地抬起保持电缆(10)的支架(12)。
    • 5. 发明申请
    • GAS-TIGHTNESS CONTROL SYSTEM
    • 气体控制系统
    • WO1989000682A1
    • 1989-01-26
    • PCT/DK1988000118
    • 1988-07-12
    • DAN-TAET, ODENSE A/SNIELSEN, Erik
    • DAN-TAET, ODENSE A/S
    • G01M03/28
    • G01M3/20G08B17/117
    • In order to be able to control whether or not a gas installation is completely tight, a shut-off valve (3) is mounted in the service pipe (2) to a building (9) together with a volumenometer (4) and an electronic control unit (5). Moreover, gas detectors (8) can be mounted in the rooms (10) of the building. If gas should be present in a room (10), the gas detector (8) will send signals to the solenoid valve (3) via the control unit (5), upon which the gas supply is immediately cut off. A continuous control and thus surveillance of the installation can also be effected by periodic measurements of the gas consumption, and when this lies above the normal, by immediately cutting-off the gas, in that the ''consumption'' must be due to a leakage. In this way, the control system is independent of the presence of persons, and accidents as a result of an escape of gas can be prevented in a simple and secure manner.
    • 为了能够控制气体安装是否完全紧密,将截止阀(3)与体积计(4)一起安装在服务管道(2)中并与电子计量器(4)一起安装到建筑物 控制单元(5)。 此外,气体检测器(8)可以安装在建筑物的房间(10)中。 如果气体应存在于房间(10)中,气体检测器(8)将通过控制单元(5)向电磁阀(3)发送信号,气体供应立即被切断。 连续的控制,从而对设备的监视也可以通过对气体消耗的周期性测量来实现,并且当这种情况超过正常值时,通过立即切断气体,因为“消耗”必须是由于 泄漏。 以这种方式,控制系统独立于人员的存在,并且可以以简单和安全的方式防止由于气体逸出而引起的事故。