DE202007006107U1 - Analysis device for the optical analysis of a medium by means of at least one image-receiving device - Google Patents

Abstract

analyzer for optical analysis of a medium by means of at least one image-receiving Device (3), wherein the analysis device at least one sample carrier (6, 8), and that by means of at least one drive device the sample carrier (6, 8) and / or the at least one image-receiving device (2) is pivotable or rotatable.

Description

The The present invention relates to an optical analysis apparatus Analysis of a medium by means of at least one image-receiving device. The device, which also serves as an image processing measuring device can be designated, serves to determine characteristic Data from disperse systems, such. B. size, shape, color, number and Concentration, both in isolated, concentrated or too in the form of compact samples or images.

The The invention relates in particular to a modular design Measuring device, depending on the requirement offline, online or can also be used inline. By using adapted optical components and sample preparation and transport modules, is the processing of dry and liquid samples, but also in compact shape (eg cuts) or illustrations possible.

In Many chemical and process engineering processes make production a priority for safety reasons - with the typical metrics such as Temperature, pressure, viscosity, Throughput, etc. controlled. Ever higher demands on product quality and out economical reasons resulting demands for yield increases, also have led to the development and use of special measuring methods, the are capable of producing the material in its chemical and physical quality to judge. Used here, especially in production-accompanying "offline" applications, mechanical and optical methods that provide information about z. B. Concentrations and Size distributions. A further improvement of the statement security and statement quality was achieved through the use of image processing methods. The stormy Developments in the field of computers, data processing, camera and Light source have caused that image processing in many production processes directly or indirectly and to a greatly increasing extent is used. Next the previously mentioned integral information from a process, image processing methods provide additional results on shape, Color, number and concentration. Because this is a counting method the results are not only available to the collective, but can be assigned to any object (eg particles).

specially in the field of production control and quality control of dispersive products, in addition to the classifying and the optical extinction or scattered light methods also image processing Methods in use. There are measuring devices known in the laboratory, but also online or inline in the production process come. Depending on size and condition the samples to be evaluated are different preparation methods, mechanical and optical components such as, conveyors, stirrers, ultrasonic dispersers, flow cells, Lens, camera, microscope, light guide, light source, etc. used.

The The above-described image processing methods have several disadvantages on. For example, known measuring devices for the respective application designed and only in very narrow application and measuring range limits used. For the evaluation microscopically finest materials z. B. will typically Normal or inverted microscopes with different optics and Lighting devices used, the only low working depths, small observation areas and short working distances allow little room for different sample preparation and allow sample transport. Other devices only allow the processing of dry or liquid-dispersed materials, or are optimized for stationary or moving materials. Often the well-known Methods susceptible to vibration and not robust and flexible enough for operational use.

task The present invention is therefore the provision of a universal, robust and modular designed image processing Analysis or measuring device, which with the simplest means the Adaptation to very wide application and measuring range limits allowed.

These Task is according to the invention with a Measuring device solved with the features of claim 1. advantageous Embodiments of the measuring device result from the features of under claims 2 to 30. A method of analyzing a sample by the analyzer according to one of the claims 1 to 29 is by means of the claims 31 to 33 claimed.

By using an arbitrarily dimensionable, central tripod with a, in particular by 360 degrees, pivotable holding device for cameras, optics, light sources and / or sample carriers or sample guides, it is possible to cover a very wide range of measurement tasks and measurement areas. Central importance is also attached to the field of sample guidance in the focal plane of the optical components used. For this area, the use of z. As glass plates, flow cells, reactors, cross tables, mechanical, hydraulic and pneumatic sample transport systems, and image and sample holders provided in the pivoting range of 0 to 360 degrees to the respective Task can be customized. The sample preparation can be carried out in differently designed and can be coupled to the central stand or arranged modules. By using robotics and procedural components, such. B. automatic sample feeding and sampling, the fully automatic operation and integration in online applications is possible. The entire measuring device including modular sample preparation modules or parts thereof can be designed in an open or encapsulated design.

Advantageous has the analysis or measuring device for determining characteristic Data of disperse systems, such. B. size, shape, color, number and Concentration, both in isolated, concentrated or too be available in the form of compact samples or images, a central tripod with one, in particular around one to 360 Degree, swivel base holding device, in particular in shape a base plate. At this twisted by a drive device or pivotable base holding device is the at least one sample carrier and / or an image-receiving device, in particular in the form a camera, fixed or movable. The can individual components arranged on the base holding device be moved by means of suitable actuators. So it is possible one or several cameras in different arrangements (eg parallel or orthogonal) for receiving the objects of interest at the To arrange base holding device. A drive unit may, for. B. serve as Z-drive for the automatic focusing of a camera. It is also possible that a camera several lenses, such. B. Normal, microscopic and telecentric lenses are assigned, which optionally the camera are vorschaltbar. Likewise, different filters can be automatic be connected upstream of the camera.

Also can Constant and flash light sources of different intensity, wavelength and Pulse time are arranged on the base holding device. As well Is it possible, to provide at least one second holding device on the stand, which is fixed to the tripod or also by means of suitable drives rotatably and / or slidably mounted on the tripod is. Also on this further holding device sample carriers, cameras feeders, Light sources, etc. may be arranged.

When sample carrier in the sense of the invention Glass plates, flow cells, Reactors, etc. are used. So can the sample carriers by means of a mechanical stage or suitable mechanical, hydraulic or pneumatically driven sample carrier transport systems, in particular be moved or adjusted in the object plane.

Sample container, mixed and dispersing devices, transport systems such. B. pump, vibrating trough, Dosing screw, belt, blower, can be arranged on the tripod or the base holding device.

Sample Preparation Module for dispersion, dilution to measuring concentration in the liquid or gas-borne state, sample or image transport may also be provided.

As well Is it possible, by means of a suitable device from an automatic sampling a point of interest of the production plant and its transport into a preparation module or directly into the object plane.

A Data processing system for evaluation, visualization and storage the results with interface in a parent network completed the analysis device according to the invention.

In an advantageous embodiment of the analysis according to the invention and measuring device, this has a tripod and a swivel Base holding device, wherein at the base holding device the Light sources, the object plane, the optics and the camera arranged are. To the liquid Preparation and dispersion of the sample is a sample container with agitator and a hose pump for the suspension transport attached to the central tripod, which the Sample by pump and hose - or at particularly critical Samples only by gravity - a sample holder holding device with integrated sample distributor. As a sample carrier can a transparent and opaque sample plate can be used. The sample carrier holding device takes the easily replaceable and very easy to clean, in the Object level aligned sample plate, which under a simple To be set angle of inclination to be measured by the suspension transports the object plane. The inclination angle is thereby by the viscosity and the desired one Layer thickness of the sample stream predetermined.

The z. B. glass plate can be advantageously adapted by various types of coatings to the interface properties of the suspension. Open sample transport avoids the problems of particle blockage and the minimum layer thicknesses imposed by the largest particles in closed cuvettes, which cause great problems with the depth of field. By automatically controlling the sample stream in continuous or "stop and go" technology and controlled light source with automatic threshold adjustment for the contrast transition, is It is also possible to measure highly concentrated samples. In principle, the circulation and passage mode can be used during sample transport.

The Measuring device advantageously has constant, pulsed and / or triggered Light sources of different wavelength, intensity and propagation direction on. The light is z. B. in reflected light, transmitted light, bright field, dark field and sent in different directions and works in combination with adapted optics, such as normal, microscope or telecentric Lenses for a sharp and high contrast image of the sample in one or several, preferably used digital B / W or color cameras. The required resolution, Sensitivity and recording speed may vary be varied within a wide range of tasks. So is z. B. with a "one million pixel camera", a pulsed Light source (typical flash units, lasers or light emitting diodes) in preferably 500 ns to 60 μs range and specially developed image evaluation unit the real-time processing of more than 25 frames per second possible.

Further preferred embodiments use external, manual, automatic, or robotic control and controllable sampling and coupling to the central stand and sample preparation modules, which are representative samples, the Sample transport, preparation steps such as division, wetting, dilution and Dispersion included. For Sample transport of dry and liquid samples is mechanical Components such. As vibrating conveyor troughs, screws, belts or Robotics systems, as well as pneumatic and hydraulic equipment using z. B. blowers or pumps are used.

Farther be z. B. simple or tempered reactors in the object plane installed without or with the involvement of peripheral processing techniques - such as precipitation, crystallization, Swelling, etc. - by image analysis be observed and metrologically recorded. It is important that the 360 degree pivoting holding device, which the light sources, Object levels, optics and cameras involves a purposeful movement and change of position transferred to the sample can. This is different for chemical and process engineering Boundary conditions in every situation the continuous observation and Image processing at arbitrary angles of arrangement of "horizontal normal" (sample is between Camera and slide arranged) over "vertical" to "horizontal inverse "(camera takes an image of the sample through the slide).

For the metrological Processing simply prepared Samples, pictorial originals and compact samples, e.g. B. in shape of cuts or cuts can in the swivel holding device simple or automatically operated xy cross tables, Sample holder and image transport, as well as Filmspuleinrichtungen installed become.

For all described Applications applies that adjusting the sharpness manually or automatically, preferably in the z-axis performed with optics and camera becomes. The implementation of calibration and control measurements can with z. B. disperse materials, Reticles or pictorial templates made manually or automatically become.

A preferred embodiment becomes closer on the basis of the figures explained.

It demonstrate:

1 : Analysis device according to the invention;

2 : alternative embodiment with two rotatably mounted on the stand holding devices in the position "horizontally normal";

3 : Embodiment according to 2 in position "horizontally inverse".

The 1 shows a first possible position of the base holding device 2 , which by means of a drive, not shown, about the axis A rotatable at the central part of the measuring device, which as a stable tripod 1 is formed, is arranged. On the 360 degree swiveling base holding device 2 are a camera 3 , Optics 4 , the light source 5 and sample carrier holders 6 arranged. Both camera 3 as well as light source 5 are on guide rails 3a . 5a mounted longitudinally displaceable and movable by means not shown drives.

The Positions of listed Components are in all directions, preferably in the optical Axis, changeable.

The sample carrier holder 6 with integrated sample distributor 7 It is used to supply sample to the measuring plane, ie to the transparent or opaque plate in the holder 8th (Sample Carrier), which may be differently coated to suit interfacial properties. The sample holder 6 has guides 6a on, along which the sample carrier 8th slidably guided.

For sample preparation, a stirred vessel equipped with different stirrers or / and ultrasonic sonotrodes is provided 9 and / or a dispersing module coupled to the sample distributor 10 intended.

The sample transport from the storage container in the measurement or object level is z. B. by gravity or by means of a suitable pump for the sample 11 ,

The The above-described analysis device can additionally via other components, such as z. B. other cameras in a different arrangement (eg., In parallel or orthogonal) for receiving the objects of interest. It In addition, an automatic, z. B. software-controlled focus take place, for this purpose suitable actuators for the Camera are provided.

Likewise, microscopic or telecentric lenses can be used in addition to normal, which either manually in front of the camera or automatically, z. B. can be arranged by means of a turret mechanism. At the same time, a wide variety of filters can be connected upstream as a camera attachment, in particular automatically. On the holding device 2 or the optics 4 In addition, constant and flash light sources of different intensity, wavelength, pulse time and direction can be arranged.

Sample preparation modules for dispersion, dilution to measurement concentration in the liquid or gas-borne state, sample or image transport, can either on tripod 1 , the holding device 2 or placed next to the analyzer.

It is likewise possible to provide a cleaning device which holds the sample carrier 8th after each analysis operation or at predeterminable intervals cleans. The cleaning device may be at least partially attached to the base holding device 2 be arranged and thus follows the movements of the sample carrier 8th , Similarly, it is possible to displaceably arrange the sample carrier on the base holding device, wherein an actuator can move the sample carrier past a cleaning device.

The sample taken from the manufacturing process and to be analyzed passes from the sample carrier by gravity or by conveyor systems (not shown) 8th in the collection container 13 and optionally can be recycled to the manufacturing process.

The 2 shows an alternative embodiment with two rotatably mounted on the tripod holding devices 2 . 2a , wherein at the first base holding device 2 the sample holder 6 and at the second holding device 2a the camera 3 and the lighting 5 are arranged displaceably. Both fixtures 2 . 2a are independently rotatable about the axis A by means not shown drives. This allows the sample to be relative to the camera 3 to position in various positions. In the position shown is the camera 3 above the sample holder 8th arranged, causing the sample between sample carrier 8th and camera 3 is located ("horizontal normal").

The 3 shows an arrangement in which the camera 3 below the sample holder 8th is arranged so that the recording through the glass of the sample carrier through success ("horizontally inverse").

Claims (33)

Analysis device for optical analysis of a medium by means of at least one image-receiving device ( 3 ), wherein the analysis device at least one sample carrier ( 6 . 8th ), and that by means of at least one drive device of the sample carrier ( 6 . 8th ) and / or the at least one image-receiving device ( 2 ) is pivotable or rotatable. Analysis device according to claim 1, characterized in that the sample carrier ( 8th ) is a plate, in particular a glass plate. Analysis device according to claim 1 or 2, characterized characterized in that the sample carrier at least one area has, the receiving area of at least one image-receiving device is. Analysis device according to one of claims 1 to 3, characterized in that the sample carrier an entrance and a Has outlet region, wherein the medium to be analyzed by means of a feeding on or reaches the entrance area of the sample carrier. Analysis device according to claim 4, characterized in that that the medium is due to gravity or by means of a transport or cleaning treatment device passes from the sample carrier, in particular on the Outlet area of the sample carrier passes. Analysis device according to one of the preceding Claims, characterized in that the sample carrier at least one storage container for at least a substance, in particular the medium to be analyzed. Analysis device according to claim 6, characterized in that that by pivoting at least the sample carrier, a substance or the to be analyzed medium from a reservoir out to at least transportable to a receiving area is. Analysis device according to one of vorge Henden claims, characterized in that the receiving area is simultaneously an area in which at least two substances react with each other or are miscible or mutagenic. Analysis device according to one of the preceding Claims, characterized in that the at least one image receiving Device is a camera, in particular a CCD camera, wherein the camera is assigned at least one lens. Analysis device according to one of the preceding Claims, characterized in that at least one feeding device the sample carrier automatically continuously or discontinuously a medium to be analyzed supplies. Analysis device according to one of the preceding Claims, characterized in that the analysis device is a control device having the movement of the sample carrier and the image receiving Device controls. Analysis device according to one of the preceding Claims, characterized in that the image-receiving device is relative to the sample carrier by means of at least one drive, in particular for the purpose of focusing, is movable. Analysis device according to one of the preceding Claims, characterized in that the at least one image receiving Device optionally above or below the sample holder for analysis on or in the sample holder located and to be analyzed medium can be arranged. Analysis device according to one of the preceding Claims, characterized in that the analysis device at least one Has illumination source which is stationary or by means of a separate drive or the drive of the sample holder pivotable is. Analysis device according to one of the preceding Claims, characterized in that at least one feeding device together with the sample carrier is pivotable by a drive. Analysis device according to one of the preceding Claims, characterized in that the at least one sample carrier at least 180 DEGREES (360 DEGREES corresponds to a full circle), advantageous by at least 270 DEGREES, in particular 360 DEGREE about the sample carrier axis swiveling or is rotatable. Analysis device according to one of the preceding Claims, characterized in that the analysis device is a central Has tripod on which the at least one sample carrier and the at least one image-receiving device can be pivoted or rotated are attached. Analysis device according to claim 17, characterized that on the stand a base holding device, in particular a Base plate is rotatably attached, by means of a drive device is rotatable, wherein at least the at least one sample carrier the base plate is arranged. Analysis device according to claim 18, characterized in that that also the at least one image-receiving device on the Base plate is arranged. Analysis device according to claim 18 or 19, characterized in that the at least one sample carrier and / or the at least one image-receiving device displaceable, in particular each by means of a drive, is stored or are. Analysis device according to claim 20, characterized in that that the at least one sample carrier and / or the at least an image-receiving device arranged on a cross table is or are, wherein in each case a drive is provided for an axis. Analysis device according to one of the preceding Claims, characterized in that the sample carrier a glass plate, a glass cuvette, a Flow tube, a reactor is. Analysis device according to one of the preceding Claims, characterized in that the analysis device for a Sample carrier one Sample holder having the sample carrier in the receiving area of holding at least one image-receiving device and / or the receiving area supplies. Analysis device according to one of the preceding Claims, characterized in that the analysis device is a sample carrier transport system having, in succession, the receiving area of an image-receiving Device at least one sample carrier can be fed. Analysis device according to one of the preceding Claims, characterized in that the analysis device is a sample preparation unit in which the medium to be analyzed for the analysis mechanically and / or is chemically prepared. Analysis device according to one of the preceding Claims, characterized in that the analysis device different sample carrier has the analyzes of different substances and different Enable analysis methods wherein the control device of the analysis device the respectively required sample carrier selects and by means of a transport device, in particular a revolver magazine, for the Provides analysis. Analysis device according to one of the preceding Claims, characterized in that the analysis device a cooling and / or Heating means, by means of which the substance to be analyzed or sample can be cooled and / or heated to a predeterminable temperature is. Analysis device according to claim 27, characterized in that that the cooling and / or heating device arranged on the sample carrier or the base plate is. Analysis device according to one of the preceding Claims, characterized in that the at least one image receiving Device around the min least one sample carrier is moved around, wherein the sample carrier pivoted about its axis with the image receiving device or staying in one position. Analysis device according to one of the preceding claims, characterized in that the axis of rotation or rotation (A) of the base holding device ( 2 ) in the plane of the sample plate or the sample carrier ( 8th ) is arranged. Method for analyzing a sample using an analysis device according to one of the preceding claims, characterized characterized in that the at least one sample carrier to one analyzing substance or sample by means of the feeding device supplied and the at least one sample carrier pivoted by the drive device in a specific position is or is, in which the at least one image-receiving device at least created a recording of the sample and for further processing to a Data processing system transmitted. Method according to claim 31, characterized in that that, depending on the required analysis method, the at least one image-receiving Device recordings of the substance or sample to be analyzed from the side of the slide, created from above or below from the sample carrier. A method according to claim 31 or 32, characterized that while the analysis process of the sample carrier alone or together with the at least one image-receiving Device moves, in particular is pivoted about an axis and the image-receiving device recordings for further evaluation during and / or generated between the pivoting.