DE2716961C3 - Test device held on a holding device for determining the inclination of tooth grinding surfaces - Google Patents

Description

The invention relates to a test device, which is automatically mounted on a holding device to display the vertical direction, to determine the no and can therefore not be subjectively influenced.
Generation of tooth grinding surfaces with one of two parts The test device according to the invention enables the existing display device, one part of which with (>? Adaptation and insertion of bridges) to achieve a feeler rod that can be placed on the tooth grinding surfaces. in great accuracy and therefore facilitates when connected and the other part constantly adhering to its application the work of the dentist in the specified direction as a reference value.

Further refinements and advantages of the invention will be explained in more detail on the basis of exemplary embodiments discussed. It shows

Fig. 1 the test device in its geeseoit construction,

Fig. 2 the test device for itself on an enlarged scale,

F i g. 3 and 4 another embodiment of the test device,

5 shows the use of the testing device with three teeth with an exaggeratedly different inclination,

6 shows the application of the testing device to teeth on one and the same half of the jaw,

7 and 8 the use of the test device when installing a bridge for a whole jaw.

The test device according to the invention shown in FIG. 1 as an exemplary embodiment in its overall structure has a handle piece 1 to which a base 3 is articulated at its free end. On this base 3 on the one hand a probe rod 4 ζ B. of about 6 mm length and 1 mm 0 is attached, on the other hand as a display device V a transparent hollow sphere 5 (outer sphere) z. B. of 10 mrn 0. In the hollow ball 5 floats like the magnetic pointer ball of a spherical compass in a liquid 7, z. B. thin oil, an inner ball 6 of z. B. 9 mm 0 in a concentric position. The inner ball 6 carries on its surface, the z. B. can be divided into different colored quadrants, a number of point markings A, B, C , etc. In contrast, the hollow sphere 5 (outer sphere) is provided on its transparent surface parts with circular Markierungslinieti K, L, M , etc., which are in the same way as the lines of longitude and latitude of the geographic coordinate network intersect at right angles.

In Fig. 2, the test device according to the invention is shown enlarged without a handle. The quadrant network provided on the outer sphere 5 (with the lines visible here ...) is arranged so that the "pole" points X _a , X _a ' lie in the axial direction of the probe rod 4. In the vertical position (as shown) the quadrant network of the inner sphere corresponds to that of the outer sphere 5; the “pole points X _h X ₁ 'of the inner sphere, the floating position of which is determined by a lead weight 8, then also lie in the axial direction of the feeler rod 4.

According to a further embodiment of the invention (cf. FIGS. 3 and 4), a _{hollow ball 15 serving as a display device K 1 is} not firmly attached to the end of a handle 11 carrying a probe rod 14, but can be moved as far as required on a prismatically cut-out rail 12 (from position A to position B) that it can be read outside the patient's mouth. This hollow ball 15 - incidentally also the hollow ball 5 (FIG. 2) - can be provided with a lens 21 which facilitates reading of the respective setting.

Fig. 5 shows some examples of the use of the test device with different tooth inclinations (positions a, b, c). The displacement of the "pole" point X _{a of} the outer sphere relative to the "pole" point X _{1 of} the inner sphere, to be read off by the dentist, characterizes the inclination of the tooth surfaces.

ίο To determine the possible direction of insertion of a bridge in one and the same half of the jaw in the case of unfavorably positioned teeth, the following basic principle should apply: With the same tooth surfaces (approximal, buccal, lingual and palatal areas), when the probe is circumnavigated, point X "should lie over the same quadrant . The greatest distance from the center of the tooth, which should be in the solcus gingivae, is decisive. A series of sketches should illustrate this (see Fig. 6):

For d, e and /, g: The same tooth surfaces show a different inclination, the points X ^ are in different quadrants. In both cases it is not possible to insert a bridge.

With h, i: the same inclination of the created parts make the points X "appear in the same quadrants. A bridge can be pushed in.

In the case of a large bridge structure distributed over an entire jaw, it is difficult to detect slight divergences with the naked eye. This can easily be done with the measuring device (see FIG. 7). All four surfaces ( b "p _r , p,. &,) Have an angle smaller than 90 °. The point X ₁ lies in the lower quadrant, which points towards the middle of the body. Slicing a bridge is possible.

If, however, the two outer angles (a _u n ₂ ) are greater than 90 °, then the points X _G lie in quadrants that point away from the center of the body (cf. FIG. 8). Then it is not possible to insert a bridge. There are two ways of checking the abutment teeth:

1. Check the same tooth surfaces individually.

2. Go around each abutment tooth with the probe and note exactly the path of point X _1. All abutment teeth that are subsequently checked should allow point X _{a to} move over the inner quadrants in the same order and position by inclining the outer sphere. Make sure that no tooth surface is inclined more than 90 ° to the horizontal plane.

Since the swimming position is in the outer sphere

floating inner sphere is determined by the lead weight on the inner sphere, it does not matter whether the feeler rod is placed on the teeth of the upper or lower jaw.

In addition 5 sheets of drawings

Claims (1)

S * ² fS In dental prosthetics, the problem arises, among other things, \ ί patent claims: To prepare the insertion of bridges, to grind the individual teeth in such a way, that is to say with such fe 1. To provide test grinding surfaces held on a holding device that the direction of these % apparatus for detecting the inclination of tooth 5 different surfaces in register a total of 5 facets existing of two parts with a pushing of the bridges in a tight fit on the [: the display device, allowing one part of ground-down with supporting teeth.
fs a tactile contact that can be applied to the tooth grinding surface. During the grinding work, a repeated! ^Ί rod is connected and the other part of which constant control is necessary to what extent the individual grinding I surfaces already maintain the required minimum inclination in a fixed predetermined direction as a reference size, characterized in that the points or whether they are still being sharpened i holding device of the test device as in one hand must. ! handle (1) to be held is designed that so far it is generally the free eye measure * - test device is designed in such a way that it is left to the skill and skill of the dentist, the open mouth of a patient can be inserted and 15 conditions mentioned in the best possible approximation and that the display device characterized tion automatically to the ideal state (with completely zueinan-Γ, a fixed direction as a reference the suitable inclined tooth grinding surfaces) to be met, indicating that the non-connectedness with the measuring rod (4) to Relief, however, is already a on a dene part (6) of the display device so freely attached to the handle elongated rectangular is movably arranged that a mouth mirror used on this part 20, on which several parallel ^1; The vertical lines are incised in such a way that the dentist shows the direction at the HaI-t / direction. ten of the mirror behind or next to the to be checked, '2. Test device according to claim 1, characterized by the Z ^ hn the angle, ie the inclination between that the vertical direction indicating the respective tooth grinding surface and one of the mirror Part of the display device ( V) can be seen from a 25 gel line. The size of this in no \ unilaterally weighted sphere (inner ball 6) Loading manner but closer determinable angle must is I, the sponding provided within a TERIAL consisting of transparent ma- then the dentist for comparison with the entspre-I, with markings Imprint angles that he floats in the same way! ■ 'and with the hollow ball connected to the feeler rod (4) on the other relevant ' · (outer ball S). 30 tooth grinding surfaces determined. It is with the help of this 3. Test device according to claim 1 or 2, characterized but not possible mirror, the inclination of the ground surface, that the feeler rod (14) with the gene of teeth of the opposite half of the jaw ) Handle (11) is firmly connected and that the one with ten to be compared with each other. ! part of the display connected to the probe rod (14). Furthermore, a test device is known (see e.g. DE- device (V ₁ ) on the handle (11) 35 OS 1766099), in which in connection with a par- is arranged slidably (Fig. 3). allelometer a certain one for a conical crown 4. Testing device according to claim 2 or 3, characterized in that the necessary cone angle can be set. to characterized in that the inner ball (6) is a measuring instrument provided with a scale for this purpose The oil located on the outer ball (5) floats plate over a retaining pin on the parallelometer (7). 40 strengthens, and there is also a sheath sleeve on the measuring plate 1 5. Testing device according to claim 2, characterized in that it is rotatably arranged. In the axial direction of this case I..J draws that the outer ball (5) by means of lines sleeve is on one side of a pointer, its [, is divided into quadrants. Rotation can be read on the scale, and 6. Testing device according to claim 2, characterized by a replaceable cutting edge on the other side shows that the surface of the inner ball (6) 45 for scanning a conical crown. This well-known in differently colored quadrant areas on- tester is used to take angle measurements on a is divided. To carry out tooth molding, which with the parallelo- 7. Testing device according to claim 5, characterized in that it is firmly connected. draws that the quadrant network on the outside The invention is now based on the object ball (5) is arranged so that its pole points 50 modify this known tester so that it is used for (Λ ^; X _a ') in the axial direction of the probe rod (4) lie- determination of the inclination of the tooth grinding surfaces in the gen. mouth of a patient is suitable. 8. Test device according to claim 1 to 7, characterized in that the display device ( V ₁ ) achieves the test characterized in the claims with an optical magnifying means. It is equipped as an essential property (lens 21 in Fig. 3). long look at the subject matter of the claim, that by the freely movable suspension of that part of the display device which is used as a reference value vertical direction indicates that the practitioner has not 60 is constrained, the vertical direction by the posture of the handle to determine yourself. Rather, it represents