RU2179002C2 - Esthesiometer device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has unit for measuring loads and arrow-type indication unit and swinging lever movable outside and having nest for removing dip rod. The rod and swinging lever are rigidly linked to each other. The lever is pivotaly connected to loading mechanism tie rod and is rigidly connected to concentrically mounted wheel bound with gear building in this way step-up gear drive. The gear is connected to lathe rotatably engageable with arrow member. Loading unit has cylinder, three compression springs of differing in heights and having common rest member fixed on the upper cylinder end and operating sequentially and in parallel. The swinging lever movable outside allows fixation relative to body. EFFECT: wide range of functional applications; high accuracy of measurements of both pain and tactile sensitivity. 1 dwg

Description

 The invention relates to the field of medical equipment, in particular to research devices in orthopedic dentistry.

Aesthesiometers are used to determine the sensitivity of various parts of the oral cavity to pressure. The results of these studies are used to create rational designs of dentures. Practice has shown the need to determine the limits of sensation of pressure. The lower limit is called tactile sensitivity, has a dimension of mg / mm ² with a range of 20 ... 12500 mg / mm ² and is determined using a V.A. Khvatova instrument, and the upper limit - pain sensitivity has a dimension of g / mm ² with a range of 10. .. 75 g / mm ² and is determined using an esthesiometer E.S. Iroshnikova and A.I. Doinikova (for a description of the instruments, see Kurlyandsky V.Yu. et al. / Research Methods in Orthopedic Dentistry: Tashkent, Medicine, 1973, 231 from.).

 The device for determining the tactile sensitivity of V.A. Khvatova consists of 20 (autonomous elements) probes. The main part of each probe is a calibrated pin spring with a length of 100 ... 115 mm, depending on the probe number. A hair 12 mm long (diameter from 0.05 to 1.0 mm) is fixed at one end of the spring, acting on the surface under study, at the other - a hollow rectangular handle with a landmark (a device that controls only the maximum spring deflection). The landmark is located next to the hair, i.e. at the time of control is in the mouth, which reduces the accuracy of evaluating the sensitivity of the mouth to pressure.

 Another disadvantage of the device is the discreteness of its action. To the surface to be examined, they are successively touched with hairs, starting from probe No. 1, until the examined person has a touch. In this case, in fact, the sensitivity value can be between the pressure values corresponding to any probe adjacent to the numbers. This is not a measurement of sensitivity, but a search for the corresponding probe, which is associated with the unproductive expenditure of considerable time. In addition, objectively-compelled multiple loading of the investigated surface leads it to a state of “temporary hardening” - a temporary change in actual sensitivity, that is, to inaccuracy in determining tactile sensitivity.

 However, control of the initial values of tactile sensitivity (7 probes by V.A. Khvatova) with loads on the hair up to 10 mg (i.e., with practically impossible external measurement of the load of the hair) should be left discrete. In this case, the load on the hair should be created due to its elasticity, and controlled by the loss of stability (with a hair diameter of 0.05; 0.07; 0.1 mm).

The well-known esthesiometer E. S. Iroshnikova and A. I. Doinikova contains a loading unit - a spring dynamometer installed in the housing of the measuring unit, which is a sector with an angle of 90 ^o . On the axis of the dynamometer there is an output lever with a removable working probe at the end and an arrow of the device, which the lever rotates during the working stroke. On the body of the device there are two scales for two working probes.

The use of the known device is limited to measuring only pain sensitivity, as well as the well-known analogue, the device of Khvatova, only tactile. In addition, when measuring the device must be rotated to an angle of 90 ^o , which is tedious for the work of the researcher’s hand and is performed unevenly. This reduces the accuracy of the measurement.

 The objective of the invention is the expansion of research capabilities by determining one measurement of both pain and tactile sensitivity, increasing accuracy and reducing measurement time while facilitating the use of the device.

 The problem is solved in that in the known esthesiometer containing nodes of loading and measuring the load on the hair of the probe with an arrow indication and an output swing arm having a socket for a removable probe, the control mechanism is equipped with a gear, for example, a clock type indicator with a large gear ratio, a wheel which is fixed to the swinging lever, and the gear is connected to the leash of the measuring arrow of the device, and the loading mechanism consists of three differently high compression springs of different stiffness, installed with basically with the possibility of series-parallel operation. In addition, the output lever can be fixed with a key relative to the housing.

The gear of the indicator used in the device with a large gear ratio allows you to get a large gear rotation angle (more than 180 ^o ) and an instrument arrow fixing the value of the applied value on a scale for a small angle of rotation (up to 30 ^o ) of the gear wheel and swing arm with a removable probe attached to it to the hair of the probe of strength; the probe loading mechanism in the form of three differently high springs with different stiffnesses installed coaxially provides a smooth change in the load (force) on the probe in a wide range; setting the loading mechanism is performed using the device in the form of a screw pair and a counterweight; to fix the swing arm, when replacing the removable probe and determining tactile sensitivity in a discrete way, a key in the form of a rod with a threaded end is used; A convenient hollow handle is fixed to the device body, in which the loading mechanism is mounted.

 The analysis of existing technical solutions in this area did not reveal the design of esthesiometers with the above distinguishing features.

The proposed esthesiometer is a universal device and allows you to replace a stand-alone device due to the use of gears with a large gear ratio and an original design dynamometer in the device, which allows you to maintain a sweep angle of 90 ^o when determining pain sensitivity and smoothly changing the load on the probe hair when determining tactile sensitivity. In addition, a single loading of the test surface with a tactile sensitivity of from 1000 to 12500 mg / mm ² significantly reduces the study time.

 Additionally, the invention is illustrated by a graphic image: the drawing shows a structural diagram of the proposed esthesiometer.

 The design of the esthesiometer contains a removable working probe 1, which is installed in the conical hole (conical groove) of the hollow rod 2. At the other end, a counterweight 3 is attached to the rod and there is an internal thread used to fix the rod when replacing and installing the removable working probe. The shaft 2 and the lever 4 are rigidly fixed to each other, and the latter is mounted on the axis of rotation 5 and has two additional connections: articulated with a thrust 6 of the loading mechanism 7 and rigid with a concentrically installed sector of the small-modular wheel 8, forming with the gear 9 an overdrive with a large gear ratio . The gear is fixed on a freely rotating axis 10 and forms a spline connection with the leash 11. With the axis of the gear axis 12 of the arrow 13 is coaxially located, fixing on the scale 14 the amount of force applied to the hair of the probe 1.

 Arrow 13 has two working ends formed by an incision of her body. One end of the flat part of the arrow intersects the trajectory of the arc of rotation of the curved part of the leash 11, and when exposed to it from the side of the leash, turns the arrow. The other end of the arrow is bent and passed through the arcuate groove of the scale 14, is located above the scale and serves as a force indicator and a place for applying manual force to return the arrow to its original position. Hold the arrow in a fixed position after measuring the sensitivity of the surface of the oral cavity to the friction forces from the side of the ring 15 of porous rubber in contact with it. The working walls of the housing 16 and 17, made of plexiglass, are fixed with screws to the base 18. A hollow handle 19 is also fixed to it, in which the loading mechanisms of the probe 7 and adjusting the initial load are mounted 20. The loading mechanism is formed by three parallel-acting compression springs 21, which having common support because of their different heights, they come into operation sequentially. The springs are oriented relative to the cylinder 22, which has a through longitudinal groove for moving the rod, the compression spring and is connected with the rod 6. The common spring support is fixed at the upper end of the cylinder, and the lower is fixed with the head of the adjustment screw relative to the handle 19. Part 23 (key) is used to fix the rod 2 relative to the housing of the device 24 when replacing the probe and working with probes that do not require the application of a load to the surface under study.

Universal esthesiometer works as follows. The probe of the device 1 is introduced into the open oral cavity of the patient to the test site and by turning the wrist with the device, the end face of the probe hair is contacted with the mucous membrane. When determining tactile sensitivity, the pressure at the contact is determined at which the subject has a feeling of touch. The study begins when the removable probe has a hair with a diameter of 0.05 mm (hereinafter 0.07 and 0.1 mm). When working with these probes, the key 23 is screwed into the threaded hole of the rod 2 and is fixed relative to the housing, excluding the rotation of the probe 1 and the rod 2 relative to the axis of rotation 5. A subsequent rotation of the device to the surface to be studied creates an appropriate force of action due to the elasticity of the hair (1; 3; 8 mg) as it sags. The pressure on the contact will be as follows: 100; 450; 1200 mg / mm ² .

 For further research, it is necessary to unscrew the key 23 from the rod 2, set the probe with the following diameter of the hair (0.15 and further 0.25; 0.5; 1.0; 1.6 mm) and perform the above procedure. In this case, the group A of parts interconnected by the probe, the rod 2, the counterweight 3, the lever 4 and the wheel 8 will rotate about the axis 5, overcoming the resistance force of the sequentially compressing compression springs 21 of the loading mechanism 7.

 The gear 9, being in engagement with the wheel 8, will rotate relative to the axis 10 together with the leash 11. The initial position of the leash 11 and the arrows of the device 13 coincide with the zero value on the scale 14. When the leash 11 is in working direction, it leads (turns) the arrow 13 relative to the axis scale 12. As the touch sensation (when determining tactile sensitivity) or pain (when determining pain sensitivity using probes 1 and 1.6 mm), the rotation of the device stops, then the direction of rotation changes until the gap act hair with the mucous membrane and the probe is removed from the mouth. Compression springs 21, when the load on the contact is reduced, straighten and, by means of traction 6, bring the group of parts A to the initial position, the counterweight 3 ensures its equilibrium with respect to axis 5. At the same time, the arrow of the device maintains a fixed position held by the friction forces from the side of the rubber ring 15 in contact with it. For subsequent measurement, the arrow of the device must be returned to the zero position manually. The divisions of the scale indicate the force exerted on the mucous membrane from the side of the probe hair. As the parts of the device wear and the springs 21 of the loading mechanism 7 weaken, they are adjusted using a screw pair 20.

 The scale is divided into 3 parts, within each of which the force values change evenly. Knowing the diameter of the hair and the force at which the limiting sensation arose, find the pressure on the surface under study according to the passport of the device.

 The design of dentures is constantly being improved. Diagnosis of the sensitivity of the surfaces of the oral cavity associated with the prosthesis to pressure is closely related and stimulated with this process. This indicates the promise of work aimed at the production of esthesiometers of rational design. The proposed design of a universal esthesiometer meets the required parameters. The device is easy to operate, has only one scale and one arrow with small dimensions and weight.

Claims (1)

 An esthesiometer comprising a housing, a loading unit and a load measuring unit with an arrow indication, an output swing arm and a removable probe, characterized in that the load measurement unit includes a hollow rod, in the opening of which a removable probe is installed, the rod and the output swing arm are rigidly interconnected, the lever is pivotally connected to the thrust of the loading mechanism and rigidly - with a concentric mounted wheel connected to the gear with the formation of a raising gear, the gear is connected to the leash, interacting m with an arrow with the possibility of its rotation, the loading unit includes a cylinder, three compression springs of different heights, having a common support mounted on the upper end of the cylinder and having the possibility of sequentially-parallel operation, and the output swinging arm is mounted with the possibility of fixing relative to the housing.