DE2938908A1 - Phase-change temp. monitoring appts. - has heated stage with temp. sensor in optical system projecting enlarged image of specimen on screen - Google Patents

Abstract

The device is used for determination of sintering, melting, solidification and flow-point temps. It is esp. used for testing crystalline substances and includes a holder for heating the substance under test and there is a temp. sensor and a thermometer. The measuring and heating device (B) is mounted next to an optical system for illuminating the specimen. There is a projection lens (3) for producing a real image of the specimen on a screen, so that the physical state of the specimen may be monitored. The real image is considerably larger than the specimen, the optical system being similar to that of a slide transparency projector. Operating circuits are accommodated on the rear wall of the device, at the opposite end from the lens (3). A transformer (15) is mounted in the centre of the instrument.

Description

The invention relates to a device for determining sintering,

Melting, solidification and pour point temperatures, in particular of crystalline substances, in which a measuring heating body for receiving measuring samples, one or more heating elements, a thermometer and a temperature sensor is provided.

For the determination of temperature values that are used for substance characterization serve, such as the sintering, melting or solidification temperatures in addition to the classic method of determining the melting point in a melting point tube numerous different apparatuses are used for the determination of the substances allow the temperatures to be kept more constant or in some other way the To simplify or clarify the measurement of temperatures. Usually will put the substance in a melting point tube and the melting point tube heated with a suitable heat source until the temperature value to be measured is reached is reached. The temperature to be measured is measured with a suitable temperature measuring device, for example a thermometer or a thermocouple or a measuring finger, established. To enable a more accurate measurement, the sample to be measured illuminated with a suitable light source, either with incident light or with transmitted light. In addition, the accuracy of the measurement can be increased by using a Magnifying glass or a microscope.

There is already a device under the designation "Bock-Monoskop (M)" to observe thermally induced changes in the molecular structure in trade, that resembles a microscope. This device has a heating disc, which can be regulated via a thermostat and which is equipped with a temperature sensor is. The heating disk can be covered with a glass disk to cover the sample, and it can be irradiated with transmitted light or irradiated with incident light. To the An analyzer with a microscope type is used to view the sample to be examined Lens system. This can be achieved with the controlled heating of the sample on the heating disk thermal behavior of the sample followed by the analyzer and for example the melting point of the sample can be determined. Similar melting point devices using a microscope as a system according to Dr. R. Sacrificial Foam, at however, the sample is heated by means of a gas burner, or known after Kofler.

Furthermore, devices are also used in which a melting point tube can be heated via an electrically operated thermostat. To determine the to be measured physical variable is the melting point tube on a Device viewed movably installed magnifying glass. One such device that works as a laboratory device for the determination of melting points, boiling points, molecular weights and pour points is suitable, is used as a system according to Dr.

Tottoli put on the market.

All previous devices have the disadvantage that when performing the Measurements on the one hand, the thermometer or temperature display devices closely observed and on the other hand the substances whose material constants are to be determined, too must be constantly and intensively observed so that the corresponding value can be precisely determined can be. If the observation of the substances is carried out by a Magnifying glass or a microscope, this is generally done over a longer period of time necessary consideration of the substance to be measured, especially because of the small size Sample amount, very exhausting, especially for serial measurements where the People performing measurements often spend hours simultaneously reading the samples and the Have to observe the temperature measuring device.

The invention is therefore based on the object of providing a device of the type mentioned above Type that allows effortless sample monitoring.

This object is achieved according to the invention in that the measuring heating body on the one hand an illumination optics and on the other hand a projection optics is assigned to the enlarged representation of the process to be observed. Here the process to be observed can either be on one at a certain distance in front of the projection optics of the device or on a projection screen The focusing screen can be made visible directly on the device. Next to the one on the screen The corresponding temperature can be displayed digitally during the process. The temperatures to be measured can be measured on a suitable digital thermometer or read on a suitable thermometer of conventional design.

In a further embodiment of the invention, all components of the Device housed within a housing. The heating element is expedient in the measuring heating body associated with a temperature control device through which both the temperature and the heating rate can be influenced.

The sample to be measured, which is located in the measuring heating body, is influenced via the heating element with the associated temperature control device. Here, the observation of the sample or the acquisition of the measured values can be much more precise and, above all, performed with less fatigue than with the previously known devices as the representation of the substance to be measured via the projection device either on a projection screen or a screen of the appropriate size. In addition, the temperatures required for the measurement arise only within of the device and are therefore no danger to the operating personnel.

Furthermore, the process can also be carried out by several people at the same time, e.g. for training purposes.

The device according to the invention is described in the following description explained in more detail using an exemplary embodiment that is shown in the drawing is. It shows: FIG. 1 a side view of the device according to the invention according to one embodiment Embodiment, whereby, in order to allow an insight into the interior of the device, the device cover is omitted, and FIG. 2 shows a plan view of the device Fig. 1.

The device for determining sintering, melting, solidification and pour point temperatures consists of a housing 1, the front wall 2 of which a projection optics 3 and Back wall 4 carries the necessary controls 5. Inside the case 1 is located in front of the projection optics 3, the measuring heating body 6, its recording 7th for the samples lies in the middle in front of the projection optics 3. The measuring heater body 6 also contains the heating element 8 and holes 9, 10 for receiving a thermometer and a temperature sensor. On the side opposite the projection optics 3 of the measuring heating body 6 is an illumination optics 11 with a lamp 12, which is a Reflector 13 can be assigned, arranged. To cool the lamp 12 is a Fan 14 is provided. The housing 1 also contains a transformer in the rear part 15 and an electronic circuit board 16 with the necessary elements for control of the device. The electrical connections of this electronic board 16 to the controls 5 have been omitted to simplify the illustration.

Claims (6)

Device for the determination of sintering, melting, solidification and pour point temperatures CLAIMS 1. Device for determining sintering, melting, solidification and pour point temperatures, in particular of crystalline substances, in which a measuring heating body for recording the test samples, one or more heating elements and a temperature sensor and a thermometer is provided, characterized in that that the Measuring heating body (6) on one side an illumination optics (11) and on the on the other side, a projection optics (3) for an enlarged representation of what is to be observed Operation is assigned. 2. Apparatus according to claim 1, characterized ge ke nn ze ic hne t that the to observing process can be displayed on a projection screen. 3. Apparatus according to claim 1, characterized in that the to be observed Process can be displayed on a screen on the device. 4. Apparatus according to claim 1, characterized in that the to be observed Process on the one hand and the corresponding temperature on the other hand on a screen can be displayed on the device. 5. Apparatus according to claim 1, characterized ge mark t c hne t that all Components of the same are housed within a housing (1). 6. Device according to claims 1-5, characterized in that the Heating element (8) is assigned a temperature control device through which both the temperature and the heating rate can be influenced.