RU142662U1 - DEVICE FOR MEASURING EFFORTS IN ORTHODONIC ARCS - Google Patents

Abstract

A device for measuring forces in orthodontic arcs containing a digital force meter with a load range of up to 500 g and a micrometer screw with a measurement accuracy of 10 μm, between which the studied orthodontic arch is placed in a bent state, installed in the rack holders.

Description

The utility model relates to dentistry and can be used to measure the forces created by arcs of different sizes and geometries from various alloys in orthodontics.

The magnitude of the force created by active orthodontic arches is important for the biomechanics of teeth when moving them. In clinical practice, it is important to use the physiological effects of orthodontic arches, however, exceeding the forces leads to resorption of the roots of the moved teeth and the development of pathological processes in the periodontium.

A device for controlling the elastic properties of springs (patent RU 2451914 C1) is known, consisting of a rack with a guide, in which a plunger is located with a support for a controlled spring, with a measuring base surface at the upper end and interchangeable weights at the lower end. There is a stopper for the plunger in the guide wall. An indicator with a measuring leg is fixed on the rack, an emphasis for the indicator leg, which can be displaced in the direction transverse to the plunger, and a support is made for the controlled spring.

The device cannot be used to directly measure the efforts of active orthodontic arches of different geometries and made of various alloys. In addition, the analogue gives a high measurement error.

The technical result of the utility model is to increase the accuracy of control of the physiological effect of orthodontic arcs by determining the forces in orthodontic arcs of a given geometric size and made of various alloys.

The technical result is achieved by the fact that a device for measuring forces in orthodontic arches, comprising, installed in the rack holders, a digital force meter with a load range of up to 500 g and a micrometer screw with a measurement accuracy of 10 μm, between which the studied orthodontic arch is placed in a bent state.

The specified technical result is achieved by the fact that in the device for determining the forces in the orthodontic arches using a micrometer screw and a force meter installed in the rack holder, in contrast to the prototype, the measuring surface is fixed in the force meter.

When taking readings, the position of the measuring surface of the orthodontic arc is measured, while the presence of the stop of the micrometer screw provides convenience and eliminates possible accidental deformation of the arc. When normalizing the position of the teeth, it is important to know the magnitude of the load applied to them, which is created by the active arc. That is, it is necessary to know the magnitude of the arc force at its given dimensions, both of the cross section and the opening of the loop.

The essence of the utility model is illustrated by the attached drawing. In FIG. 1 shows a device for determining forces in orthodontic arches. The device comprises a rack 1, on which a micrometer screw 2 is mounted with a measurement accuracy of 10 μm, a load meter 3 with a load range of up to 500 g (measurement accuracy 0.1 g). The active arc 4 under investigation is installed between the micrometer screw 2 and the force meter 3. The presence of the micrometer screw 2 allows the geometry of the arc to be set very accurately, which corresponds to the actual conditions of its use in the bracket system.

The device operates as follows.

From the nitinol arc of the proposed cross section and size, a workpiece or arc segment is made. She is in a free state and does not create efforts. After that, the workpiece (segment) of the arc 4 is installed in the device between the load meter 3 and the micrometer screw 2 turning into an active state (curved). Using the micrometer screw 2, the actual value of the opening of this arc is set based on their measurements on the patient’s teeth. The magnitude of the force created by the arc is measured on the scale of the force meter 3. This force will be at the arc when installed on movable teeth.

Claims (1)

A device for measuring forces in orthodontic arcs containing a digital force meter with a load range of up to 500 g and a micrometer screw with a measurement accuracy of 10 μm, between which the studied orthodontic arch is placed in a bent state, installed in the rack holders.

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