DE10039147B4 - Measuring station for checking the setting behavior of dental investment materials - Google Patents

Abstract

Observed for controlling the setting behavior of dental investment materials, in particular so-called speed investment materials, wherein a sensor (5a, 5b, 5c) for determining the insertion of the muffle (2) in the measuring station (1), the temperature profile and / or the expansion of the investment (10) is provided.

Description

The The invention relates to a measuring station for controlling the setting behavior of investment materials according to claim 1.

The Bonding properties of dental investment materials in the production of crowns, bridges, Veneers, inlays, onlays etc. show certain characteristics that Can cause problems. When curing the investment takes place an exothermic reaction, which is a Expansion of investment material has the consequence. The course of the setting process determines the result of the work dimensionally and qualitatively. Consequently It is very important to keep the conditions for the setting process constant or variations in environmental conditions or material to compensate specifically. As a result, reproducible results in fit and quality are possible, the to reduce the cost and time required for dentists, dental technicians as also contribute to the patient.

The Setting behavior and thus the expansion of dental investment material depends on several factors. That's how the expansion will be the investment, for example, by the ratio of mixing concentrate influenced by water. The more concentrate is used, the more is higher the expansion. Furthermore, the mixing time and intensity also have one Influence on the setting behavior. Natural variations are also - conditional through the starting materials of the investments, which then on affect the bonding behavior.

A size Role plays the processing temperature of powder and liquids. Thus, at a processing temperature of over 22 ° C, the setting expansion increases greatly to. It is therefore generally recommended to maintain a constant temperature of Liquid, powder, water and mixing vessel, ideally at about 18-20 ° C should lie. Despite these measures persists the problem that the setting behavior of Differs from casting to casting and is not specifically controllable.

Especially important is the temperature during setting. After mixing, the investment is poured into the mold. During curing, the temperature of the investment increases steadily until a peak temperature is reached at which the investment sets. Thereafter, the mass cools down again. During the time from pouring to setting, the mass is constantly expanding. The slope of the temperature increase of the setting process may vary depending on the starting and ambient conditions. The setting expansion of a super-hard plaster-based model mass as a function of time shows 2 from "Precision Casting System" (I) in dental-laboratory, 21.Jg., No. 5/73, pp. 488-493 However, a method for determining the values shown here is not disclosed here .. So far it is up to the dental technician to use his experience and time the setting process according to the conditions.

Around these inaccuracies as possible To keep dental technicians low, always the same investment material to use. Thereby can the accumulated experiences are refined further and further. Often exists however, the desire for another investment; so this many failed attempts and long series of experiments can lead to. It is particularly problematic when the dental technician a new Would like to try investing. It is for difficult to do this, within a manageable To determine whether a new investment material specific Requirements of his laboratory.

One approach to solving these problems is one in the DE 19955866 A1 shown Muffelformer wearing on its outside a thermosensitive element that reacts with color change on temperature changes. When the color changes, the dental technician realizes that the setting time has expired to some point and he can remove the muffle sleeve. Disadvantage of this device, however, is that it is relatively inaccurate. In combination with the known measures for controlling the setting behavior, maintaining the temperature, mixing ratio concentrate / water or the stirring time, it contributes to the improvement of the expansion control, but overall, this improvement is too inaccurate. Thus, there is still the problem that the results are not constant and the setting behavior differs at worst from casting to casting. This is especially true for so-called. Speed embedding, which are increasingly being used, since the productivity and usually the speed for the provision of dental work are crucial. Another advantage of these speed investment materials is the more effective use of the preheat furnaces. While in the so-called overnight technology the oven has to go through a certain temperature curve over and over again, and after each process a cooling time is necessary, one work after another can be put into the oven for the speed investment mass. In addition to the time savings so less energy is needed. Disadvantage is the poor controllability of the expansion, which must run in a very narrow time frame and also in terms of amount is much lower than in the overnight technology.

The object of the present invention is therefore to provide a measuring station, with which to avoid the disadvantages mentioned and to improve the cast repeatability.

These Task is solved by a measuring station according to claim 1.

main benefit the measuring station according to the invention is that the for the setting behavior of the embedding masses purposefully monitors essential parameters can be. It's not just an approximate check possible, as is achieved by the methods and apparatus of the State of the art, but the expansion can be reliable and at all times be controlled in a defined way, so that a high reproducibility is reached. It is also advantageous that less experienced and experienced employees entrusted with the processing of the investment can be: With the help of the new measuring station errors can be minimized, and It may also be untrained Persons are applied.

Further brings the invention considerable work easier with it. Since the control of setting is automatic; the technician can do his Attention to other activities do not judge and constantly need to control the setting condition.

With the new measuring station is also a light and reliable Control of the setting behavior of other investments than the usual possible. This especially applies if a data processing system to the measuring station is connected, with which, for example, the characteristics previously not yet used investment materials with those known let compare. So can the accumulated experiences also archived and transferred to other products become.

In Connection to a data processing system is also advantageous, that product specificity is constantly being improved with suitable software leaves. An adaptive System can continuously compare the recorded data with the new data and so contribute significantly to application security.

embodiments The invention will be described below with reference to the drawing. It shows:

1 a measuring station according to the invention in a schematic representation.

How out 1 it can be seen that the device according to the invention is a measuring station 1 , On this measuring station 1 becomes a muffle 2 with a base 3 placed. This putting on the muffle 2 to the measuring station 1 takes place in particular immediately after pouring the investment 10 as indicated by the arrow. The measuring station 1 measures with sensors 5a respectively. 5b especially the expansion parameters. It is intended to determine the expansion of the thermosetting investment material 10 both temperature sensors 5a as well as strain sensors 5b , These can be provided side by side, but it can also be used only a single sensor type.

The sensors 5a . 5b capture both at the muffle 2 as well as within the investment material 10 itself the temperature or elongation values. Therefore, the sensors z. B. on the wall, in the jacket, in the lid or in the base of the muffle 2 are located. It is preferred that there is a temperature sensor 5a centrally in the base 3 the muffle 2 is located, preferably immediately below the object to be formed 4 , strain sensors 5b however, preference is given to the muffle on the wall or in the mantle 2 fixed, because so the expansion of the investment 10 is best measured in the radial direction. The sensors 5a . 5b can also be integral part of the muffle 2 be. Preferably, the sensors 5a . 5b however, in the measuring station 1 integrated, as well as a wider sensor 5c on contact basis, the putting on or adjusting the muffle 2 detected on or in the measuring station. The expansion of the investment is preferably measured continuously, so that deviations are noticed as quickly as possible. As a result, corrective action can be intervened if possible, or the process can be terminated in good time, so that no further costs occur.

The measuring station 1 can be controlled both manually and electronically. It is provided, on the one hand, that the recording of the temperature or elongation values is started manually, for example. B. via the control buttons 6 , for another, that starting the measuring station 1 automatically, for. B. when placing the muffle 2 in the station 1 via the contact sensor 5c or when a certain setpoint temperature is reached. This can be, for example, by activating further contact points or sensors 5c done via weight sensors or through the crossing of a light barrier or touching a key switch or a microswitch.

The measured values of the temperature and / or strain can either be directly in the measuring station 1 themselves be processed or stored, or they can be sent to an evaluation unit 7 be forwarded with microprocessor. There the processing of the collected data could take place. It can also have an ad 8th be provided. Also advantageous are one or more inputs 9 , the data, z. B. from external devices, such. As blenders or ovens, the data processing system of the measuring station 1 or the evaluation unit 7 respectively. Thus, the data of the setting behavior can be compared with those of the curing and the mixing and thus made an increasingly accurate and complete adaptation. Therefore, it is provided that the evaluation unit 7 both data from the measuring station 1 record as well as these can control. For this purpose, various interfaces, such. B. RS-232 provided. An infrared interface can also be provided in an advantageous manner.

It is preferred that upon reaching a defined temperature or strain point or range, a signal is emitted. Preferably, this signal is on reaching the on the display 8th indicated temperature peaks 8a issued. This signal can be for example an optical or acoustic signal. Preferably, an early warning signal for initiating the next step (eg removal of the muffle former) is additionally delivered.

As a further embodiment of the invention it is provided that the measuring station 1 Recordings for several muffles 2 may have. These shots, as here by the reference numeral 2 ' for a flat, pot-shaped depression on the measuring station 1 is indicated, can for identical in shape and size muffles 2 be designed or it may be provided various shapes and sizes.

The recording 2 ' the measuring station 1 for the muffle 2 can be provided with detents, so that the muffle 2 secure hold in the recording 2 ' place. This detent can also be the contact sensor 5c to start the measuring process and serve to identify different muffle sizes.

According to a further embodiment, a measuring station 1 additionally or exclusively contain a timer, which manually or automatically with the recordings 2 ' through the muffle (-n) 2 , in particular via the contact sensor 5c can be started. This timer should at least two different, adjustable times, in particular 3 to 5 minutes after the peak 8a and another one to two minutes each can give a warning to the dental technician to remove the muffle from the measuring station 1 and subsequent adjustment in the preheat oven.

Claims (10)

Measuring station for controlling the setting behavior of dental investment materials, in particular so-called speed investment materials, wherein a sensor ( 5a . 5b . 5c ) for determining the onset of the muffle ( 2 ) into the measuring station ( 1 ), the temperature profile and / or the expansion of the investment ( 10 ) is provided. Measuring station according to claim 1, characterized in that the sensor ( 5a . 5b . 5c ) in the bottom, cover or jacket of the muffle ( 2 ) is attached. Measuring station according to claim 1, characterized in that the sensor ( 5a . 5b . 5c ) at the measuring station ( 1 ) is fixed. Measuring station according to one of claims 1 to 3, characterized in that the measuring station ( 1 ) at least one recording ( 2 ' ) for at least one muffle ( 2 ) having. Measuring station according to claim 4, characterized in that the receptacle ( 2 ' ) Notches for fixing and / or identifying the muffle (size) ( 2 ) contains. Measuring station according to claim 4 or 5, characterized in that the receptacle ( 2 ' ) for the muffle (-n) ( 2 ) Contact points or sensors ( 5c ) to start the measuring process. Measuring station according to one of claims 1 to 6, characterized in that the measuring station ( 1 ) with an evaluation unit ( 7 ) or can be connected to the measuring station ( 1 ) is integrated. Measuring station according to one of claims 1 to 7, characterized that at least one interface for data exchange and / or for Connection of additional equipment, like mixing device, Oven, external measuring and display devices, PC is provided. Measuring station according to one of claims 1 to 8, characterized in that the measuring station ( 1 ) contains a data store. Measuring station according to one of claims 1 to 9, characterized in that the measuring station ( 1 ) contains a timer which, when setting and / or placing the muffle ( 2 ), in particular via the sensor ( 5c ) is activated.