DE102005020297A1 - Device for testing disc material with radiation source has radiation source and radiation detector, which are arranged on opposite sides with respect to disc material - Google Patents

Abstract

The device has radiation source (4) and radiation detector, which are arranged on the opposite sides with respect to the disc material. The radiation source emits radiations in the form of ray jets. The radiation detector is formed line-shaped. An independent claim is also included for the method for testing the disc material.

Description

The The invention relates to a device for testing a plate material with the help of at least one radiation source, wherein plate material and move radiation source relative to each other and wherein the radiation source a radiation detector is assigned. The invention further relates a method of testing a plate material by means of the aforementioned device.

board materials are used for various purposes. They are components e.g. for furniture, for lightweight walls and like. requirement for a use of a plate material is often a uniform training this plate material. So it is often necessary to make sure that the plate material in every area of its plane Extension has an equal density.

Especially In addition, in the production of plate materials exists the requirement, before the final Completion of the plate material to be sure that this Plate material no inclusions of areas that may damage subsequent processing equipment. at the production of wood chip boards are e.g. To avoid areas in which the density of the plate material is already so high that subsequent Pressing the plate material can not compress and damaged by it can be.

devices and methods of the aforementioned genera are known. The Check a plate material can be done with the help of radiation sources, with which the plate material transilluminates or radiates becomes. The passing beams are from radiation detectors recorded and processed. It is the state of the art often required to use multiple sources of radiation and in a given To arrange angles to each other. Taking into account the manufactured angular relationships is then tried, the desired Measured results to get complicated bills.

Of the Invention is the object of a device of the initially To identify the genus mentioned, with a simple way of testing the Plate material can be done. In addition to a procedure after which the test is carried out.

the device side This object is achieved by the invention solved, that radiation source and radiation detector on opposite sides with respect to Plate material are arranged so that the radiation source radiation in the form of a fan of light sends out and that the Radiation detector line-shaped is trained.

The inventive device can with only one radiation source and with only one radiation detector be used. These two components become one another assigned to that of rays emitted by the radiation source penetrate the plate material and then collected by the radiation detector. radiation and radiation detector have special training, each linearly are. The radiation source emits the radiation in the form of a fan beam. With this fanned out Radiation may be a certain portion of the plate material, preferably the plate material in total, be covered. In the line of ray fan Then, the radiation detector is arranged to receive the fanned radiation to be able to after passing through the plate material.

With The radiation source is thus a kind of scanning the plate material. Fanned radiation and radiation detector are preferably transversely to the direction of movement aligned the plate material or the radiation source. Regularly the plate material passed by the radiation source.

has the plate material has a width which is greater than the fanned radiation is a source of radiation, so the material can with multiple radiation sources to be examined. The individual radiation sources with each associated detectors are then arranged so that the total width covered the plate material with the fanned radiation becomes. Radiation sources and radiation detectors are then in from each other arranged at different levels, which are approximately perpendicular to the extension of the plate material are aligned. Each level can be with only be occupied by a radiation source and a radiation detector. The The detected information obtained is then added a total information about the plate material assembled.

Around to achieve that emitted by the radiation source rays as vertically as possible through the Plate material pass, the fan beam has a relatively acute opening angle. This is preferably about 10 ° to about 30 °. The Radiation source may be several meters away from the detector to with such a sharp fan beam as possible cover wide portion of the plate material can.

The radiation source is after a weitererbil tion of the invention arranged on a truss-like auxiliary frame above a passage plane for the plate material. The plate material is guided past the radiation source, this is held above the plate material by the truss-like auxiliary frame. The passage plane for the plate material is preferably arranged horizontally, so that a beam fan emanating from the radiation source can reach the flat side of the plate material.

Around to control the radiation hazard emanating from the radiation source a development of the invention, a housing before, used for the fan beam is and widens in the direction of the radiation detector. The emitted radiation is thus performed in a housing, so that on the one hand no radiation which can cause environments. On the other hand is sent through this housing Stray radiation captured and returned to the fan beam.

A next Development of the invention provides that the radiation detector in one Holding device is held on the auxiliary frame. With the holding device the radiation detector is held on the one hand, on the other hand is through the use of a holding device and a replacement of the radiation detector allows. To have accelerated access to the radiation detector, the holding device is preferably a drawer.

The Training of radiation source and radiation detector depends on the materials of the plate to be examined. Is it? around chipboard, so can the radiation source is an X-ray source and the radiation detector by a plurality of x-ray photodiodes be educated.

at the method of testing of the plate material, for the self-employed Protection is claimed, the invention provides that with the radiation detector line by line the Strahlabsorbtionsvermögen the plate material determined will and that out this Strahlenabsorbtionsvermögen with knowledge of specific properties of the plate material characteristics of Plate material can be determined.

at the method according to the invention The plate material is irradiated line by line. With the radiation detector the radiographic results are continuously recorded. there it is determined which portions of the emitted radiation the individual areas of the plate material are absorbed. The inventive method can locally with a radiation source and with a radiation detector carried out become. The results read line by line are sent to a data processor passed, which makes an evaluation. From the different ones absorbance the individual regions of the plate material may e.g. Air pockets are determined Areas with elevated Density or generally the basis weight distribution of the Plate material are determined.

To A first development of the method according to the invention is provided, that the Strahlenabsorbtionsvermögen in a Gray value image is converted from the line-by-line provided Detection signals of the radiation detector is composed. By a gray value image allows the results to be determined visually represent. By gray shades, e.g. Areas with different Densities are identified.

Out This gray scale image is after a development of the method the basis weight of the plate material can be determined. In the basis weight of a plate material it is important that this on the Regions of the plate material is uniform. A device according to the invention, with which the method according to the invention is carried out, for example, between a pre-press and a final press in the production of wood chips be inserted plate materials used. After pre-pressing If the plate material is subjected to a basis weight consideration, occur while fluctuations in the basis weight on, can Settings on the pre-press can be made to one again more even distribution the basis weight to reach. The aim of these adjustments and the use of the inventive method is it, slight variations in basis weight over the reach entire extent of the plate material. Are that namely the Variations in basis weight, So the partial outliers at basis weight lower, can the preset basis weight of the plate material be slightly lower to the required minimum basis weight too to back up.

According to a next development of the method according to the invention, it is provided that material compactions are determined from the radiation absorption capacity and that properties of these material compactions are compared with defined limit values. In addition to determining the uniform distribution of, for example, the basis weight, the data provided by the radiation detector or by a plurality of radiation detectors can also be used to determine material densifications. The material compaction may indicate, for example, areas of increased density. From the detected Absorbtionsvermögen the density of these areas can be determined and vergli with a defined density limit be. This defined limit may be, for example, a parameter of the maximum processability of the plate material by subsequent devices. For example, in certain presses with steel strips, the maximum workable density of the plate material is about 1,500 kg / m ³ . If sections are found in the plate material whose density is higher in the inventive method, the further transport of the plate material is stopped and these areas can be removed from the plate material. This prevents damage to subsequent devices.

is the plate material glass wool, so can areas with an increased proportion be determined by glass cores. For aluminum sandwich panels are Areas with so-called voids can be found, ie areas without Board material.

One embodiment of the invention, from which further inventive features arise is shown in the drawing. Show it:

1 a side view of a device for testing a plate material and

2 : a plan view of the device according to 1 ,

The device in 1 has a frame 1 on, which can get up on the floor. The frame is partly as a truss-like auxiliary frame 2 educated.

On an overhead, horizontally extending frame beam 3 are two sources of radiation 4 arranged. Every radiation source 4 is a housing 5 assigned below the radiation source 4 is arranged and moving in the direction of one of the frame 1 held support table 6 widened cone-shaped.

The support table 6 forms a support plane for a plate material, which consists of the plane of the drawing 1 amounts. The plate material is thus relative to the radiation sources 4 with their housings 5 emotional.

Immediately below the support table 6 gets through the frame 1 a space designed in the not shown and the two radiation sources 4 respectively associated line-type radiation detectors are arranged. With the radiation detectors are each of the radiation source 4 sent out and through the case 5 that on the support table 6 received on resting plate material supplied rays after their passage through the plate material and read out.

2 shows that the housing 5 in a middle area of the frame 1 overlap in sections. However, the overlap area is made small, since the measurement results of each radiation source 4 be evaluated for themselves. With both radiation sources 4 and their associated housings 5 However, the entire width of the plate material is covered, from the read out with the two associated radiation detectors results can thus produce an image of the entire width of the plate material. By a line by line readout of the entire plate material and a subsequent composition of the line by line results available, for example, a gray value image of the plate material can be made. In the data processing device used for this purpose, for example, a ring memory may be included, in which a length of about 50 m plate material can be stored and also visually representable.

Claims (15)

Device for testing a plate material with the aid of at least one radiation source, wherein the plate material and the radiation source move relative to one another and wherein the radiation source is associated with a radiation detector, characterized in that the radiation source ( 4 ) and radiation detector are arranged on opposite sides with respect to the plate material that the radiation source ( 4 ) emits a radiation in the form of a fan beam and that the radiation detector is formed in a line shape. Device according to claim 1, characterized in that that the ray fan an opening angle from about 10 ° to has about 30 °. Apparatus according to claim 1 or 2, characterized in that the radiation source ( 4 ) on a truss-like subframe ( 2 ) is held above a passage plane for the plate material. Device according to one of claims 1 to 3, characterized in that in each case at least one radiation source ( 4 ) and at least one radiation detector are arranged in a plane oriented approximately at right angles to the extent of the plate material, wherein for a plurality of radiation sources ( 4 ) and radiation detectors multiple levels are used. Device according to one of the preceding claims, characterized in that for the fan beam a widening in the direction of the radiation detector housing ( 5 ) is provided. Device according to one of the preceding claims, characterized in that the radiation detector in a holding device on the auxiliary frame ( 2 ) is held. Device according to claim 6, characterized in that that the Holding device is a drawer. Device according to one of the preceding claims, characterized in that the radiation source ( 4 ) is an X-ray source. Device according to claim 8, characterized in that that the Beam detector formed by a plurality of X-ray photodiodes is. Method of testing a plate material by means of the device according to one of Claims 1 to 9, characterized in that with the radiation detector line by line determined the radiation absorption capacity of the plate material will and that out this radiation absorption capacity with knowledge of specific properties of the plate material characteristics of Plate material can be determined. Method according to claim 10, characterized in that that this Radiation absorption capacity is converted into a gray value image, which from the line to the disposal composed detection signals of the radiation detector becomes. Method according to claim 11, characterized in that that out the greyscale image the basis weight of the plate material is determined. Method according to one of claims 8 to 12, characterized that out the radiation absorption capacity Material compaction are determined and that properties of these material compaction be compared with defined limits. Method according to claim 13, characterized in that that as Limit value a parameter of the maximum Processability of the plate material by subsequent devices is used. Method according to claim 14, characterized in that that one Characteristic the maximum density of the material is used.