NL8900453A - METHOD AND SYSTEM FOR DETERMINING POLLUTANTS IN A TRACK OF NON-METALLIC MATERIAL, PREFERABLY STONE WOOL. - Google Patents

Description

Method and system for determining impurities in a web of non-metallic material, preferably rock wool

The sharpening of quality requirements for many types of non-metallic material to be produced makes it more difficult to inspect them adequately. In the past, a visual inspection of the surface of such a web of material often yielded satisfactory results.

The present invention relates to a method according to claim 1.

Such a method allows automatic quality control of material production carried out in a continuous process, while also the quality of the interior of the material web is monitored.

In particular, the material web is rock wool, where hot molten stone is spun into threads with the addition of a binder such as phenolic material, to which more (about 85% by weight) or less water is added.

Further advantages, features and details of the present invention will become apparent from a description of a preferred embodiment referring to the accompanying drawing. After the stone has melted, has been spun and has been formed into a material web with the aid of a shuttle (not shown), this material web is cooled and often compressed to a greater or lesser extent, after which it exits as web P from a schematically indicated exit 0 of a chamber 1. coming.

Microwave transmitters 2 are arranged above the material web B, three of which are shown in the exemplary embodiment, which microwave transmitters are available, for example, commercially for room surveillance. Corresponding microwave receivers 3 are arranged under the material path B, which receive the radiation w emitted from the transmitters 2 and supply a signal via lines 4 to a control element 6, which is a measure of the amount of radiation received and therefore absorbed in the material path B. With the aid of an adjustment button 7, a threshold level in a window 8 that can be read in a window is adjustable, which threshold level determines when an alarm signal is to be issued by a schematically indicated alarm member 9.

The data processed in the control member 6 can, of course, be recorded on a magnetic tape in a recorder 11.

In the preferred embodiment shown, the transmitting members and receiving members are arranged correspondingly such that the radiation from a particular transmitter only reaches the corresponding receiver 3.

Testing has shown that contaminants D in a rock wool P web with a minimum projected surface area of 3 cm2 can be sufficiently detected. Such results were found not to be achievable with other tested measurement systems.

The determination of the impurities or 'dots' D is of particular importance if the rock wool is used to manufacture substrates for plant cultivation. Water has accumulated in the contaminants, however, this is accompanied by an accumulation of binder or resin that is toxic to the plants.

The tested embodiment (not shown) includes four transmitters (and four receivers), two transmitters being aligned, while no two adjacent transmitters were aligned. The best test results were obtained at a frequency of 10.2 MHz. The thickness of the rock wool layer had little influence on the measured values. Testing has been satisfactory at a material web speed of 20 meters per minute. Metal parts from the conveyor for the material web not shown were replaced by plastic parts.

The present invention is also applicable to glass wool and other non-metallic webs such as those found in the textile industry, for example.

Claims (6)

Method for determining contaminants in a web of non-metallic material, wherein: - microwave radiation is sent through the web of material; and 1. the absorbance of the microwave radiation is measured. The method of claim 1, wherein the microwave radiation has a frequency in the order of 10 MHz, preferably 10.2 MHz. The method of claim 1 or 2, wherein the material is rock wool. System for carrying out one of the methods according to any one of claims 1-3. The system of claim 3, wherein a plurality of microwave transmitters and corresponding microwave receivers are arranged transversely to the running direction of the belt material on either side of the web of material, and wherein a microwave transmitter disposed adjacent to another microwave transmitter is in the conveying direction of the material path is arranged in a staggered manner, as is the corresponding microwave receiver. System according to claim 4 or 5, wherein one or more microwave receivers are connected to a common controller in which a threshold value for the received microwave radiation is adjustable.