RU2008850C1 - Device for measurement of tooth parameters - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: device has tubular body 14 with jaws 22, inductive transducer of linear motions, potentiometric transducer of angular motions connected through switching and calibrating units 26 and 27 with XY-recorder 25. EFFECT: simultaneous determination of linear parameters of tooth and its profile and alveolar process. 2 cl, 3 dwg

Description

 The invention relates to medical equipment and can be used in orthopedic dentistry.

 A device for measuring the parameters of the tooth, containing a hollow body, movable and stationary working jaws, a movement indicator [1].

 However, this device provides measurement of only linear parameters of the tooth and does not allow to obtain complete information about its profile, for example, in a transverse plane.

 Closest to the proposed is a device for measuring tooth parameters, containing a hollow body with jaws, one of which is removable and connected by a flexible rod with a linear displacement sensor [2].

 This device also allows you to measure only the linear dimensions of the tooth and its perimeter at the neck and does not make it possible to determine the profile of the tooth and alveolar bone of the jaw in the transverse plane and fix the position of the profile relative to the sagittal line.

 The aim of the invention is the simultaneous determination of linear parameters and the profile of the tooth and alveolar bone.

 In FIG. 1 shows a device for measuring the parameters of the tooth and alveolar bone of the jaw, side view; in FIG. 2 - the same, top view; in FIG. 3 is a section AA of the measuring part of the device and the scheme for measuring the profile of the alveolar ridge.

 The proposed device comprises a measuring head 1, rigidly mounted on a rail 2 with a measuring scale, with the possibility of movement in a transverse plane along the guide sleeve 3 and can be fixed with a screw 4.

 The carrier rail 5 with a measuring scale and with the possibility of movement in the sagittal plane along the guide sleeve 6 is rigidly fastened to the sleeve 3, forming a perpendicular with the rail 2. The guide sleeve 6 is mounted on the spoon 7 using the bracket 8. The entire device is fixed in the patient’s oral cavity using the spoon 7 and the chin lock 9, interconnected by a hinge 10. The necessary clamping force of the spoon 7 and the chin lock 9 is provided by a screw 11, which is fixed on the chin latch 9 using the bracket 12 and the fixing nut 13.

 The measuring head 1 contains a housing 14 with a movable sleeve 15 inside, spring-loaded with a spring 16. On the axis of the movable sleeve 15 is an individual linear displacement sensor consisting of a coil 17 located along the housing with primary 18 and secondary 19 windings, and a spring-loaded core 20 connection 21, which is simultaneously a probe that perceives the axial movements of the movable sleeve 15. At the end of the movable sleeve 15 are two sliding spring-loaded probes 22 of an arcuate shape and rigidly connected to by angiometric angular displacement sensors 23. The working end of the flexible cable 24 of the remote drive is in contact with the movable sleeve 15. The primary 18 and secondary 19 windings of the induction linear displacement sensors and potentiometric angular displacement sensors are connected to the corresponding terminals of the two-coordinate recording device 25 through power-on blocks 26 and 27 and calibration.

 The procedure for measuring the parameters of the tooth or alveolar bone of the jaw is as follows.

 The device is placed in the oral cavity of the patient so that the carrier rail 5 is located strictly on the sagittal line, and fix it with a spoon 7 and chin lock 9. By rotating the head 28 of the screw 11, the required clamping force of the device is achieved, which is fixed with a locknut 13. The carrier rail 5 move relative to the guide sleeve 6 in the oral cavity to the required depth (which will be fixed on the measuring scale) corresponding to the coordinate of the measured profile (tooth or alveolar ridge) in sagittal hydrochloric plane. By moving the rod 2 relative to the guide sleeve 3, the measuring head 1 is positioned above the measured profile so that the arcuate probes 22 and the lower end of the connection core 21 touch the upper part of the measured tooth or alveolar bone. At the same time, the coordinate of the measured profile in the transversal plane is fixed on a scale of rail 2, and its initial position is noted on a recording device using the switching and calibration scheme. This initial position is fixed with screws 4 and 29. Under the action of pressing the button 30, the working end of the flexible cable 24 causes the movable sleeve 15 to move down. In this case, the communication core 21 will enter the coil 17, changing the magnetic field of the secondary winding 19, as a result of which the generated electric linear displacement signal will arrive at the X coordinate of the recording device (for example, N-307).

 At the same time, the arcuate probes 22 will move apart, setting the potentiometric sensors 23 (which can be used with variable resistors) angular displacement. In this case, the generated calibrated electrical signal will arrive at the Y coordinate of the recorder. Ultimately, a profile, for example, of the alveolar ridge 31, with all the proportions and relative sizes of the original preserved, is fixed on the recorder 25.

 Compared with the prototype, the proposed device allows for the implementation of one measurement to determine not only the linear parameters of the tooth or alveolar bone, but also their profile with information about its coordinates in the transversal and sagittal planes.

 Thus, the proposed device provides a quick and accurate measurement with reduced time and labor for its implementation.

 (56) 1. USSR author's certificate N 232459, cl. A 61 B 6/14, 1967.

 2. USSR author's certificate N 1101227, cl. A 61 C 19/04, 1981.

Claims (2)

 1. DEVICE FOR MEASURING DENTAL PARAMETERS, comprising a tubular body with jaws and a linear displacement sensor, characterized in that, in order to simultaneously determine the linear parameters and the profile of the tooth and alviolar process, a sleeve spring-loaded in the relative direction is located inside the tubular body displacement, inside of which an inductive linear displacement transducer with primary and secondary windings on the communication core is coaxially located, and the jaws are made in the form of two arched times Vision probe located at an end of the sleeve and fixedly connected to the potentiometric sensor of the angular displacement, the inductive linear encoder and potentiometric sensors are connected via an angular displacement units incorporating calibration and recording instruments xy.  2. The device according to claim 1, characterized in that the housing with jaws is fixed on mutually perpendicular rails with the possibility of relative movement and fixation in the transverse and sagittal planes, the rails being rigidly connected to the mounting spoon and chin latch, pivotally connected to each other.

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