SU1754089A1 - Electrode installation - Google Patents

Abstract

The invention relates to medicine, in particular to orthopedic dentistry, and can be used in corrosion diagnostics for measuring the potential and current of corrosion of metal dentures and fillings. The aim of the invention is to improve the accuracy of electrochemical parameters of metal dentures and fillings. The electrode device includes a housing 1 with a contact element 2 connected to a conductor 3, a housing made of plastisol monolithic, and the contact element has the shape of a triangular isosceles pyramid and is placed inside the housing. Koprtyc 1 with the contact element 2 is placed in the oral cavity of the patient. The potential measurement is carried out at the closing of the patient's dental rows. 1 hp f-ly, 1 ill.

Description

The invention relates to medical equipment and can be used in corrosion diagnostics to measure the potential and corrosion current of metal dentures and fillings.

Known electrode device containing a housing with a contact element connected to a conductor, which is used to measure electrode potentials and current strength in the oral cavity in the presence of metal dentures.

A disadvantage of the known electrode device is that when it is used, inevitably there is a measurement error associated with a violation of the potential distribution (polarizability of the electrode, potential jump at the phase boundary). Injury of the mucous membrane of the oral cavity with the metal end during electrode fixation is not excluded.

The aim of the invention is to improve the accuracy of the electrochemical parameters of metal dentures and fillings.

The drawing shows an electrode device, General view, section.

The electrode device contains a housing! made in the form of a flat cylinder in one piece of plastisol, the contact element 2, having the shape of a triangular isosceles pyramid and placed inside the housing 1. The height of the contact element is 3-4 mm, it is made by the usual method of casting wax cast steel models. A conductor 3 is welded to one of the faces of the contact element 2, for example, by contact laser welding. To insulate the conductor, a PVC pipe 4 is pulled onto its part free of plastisol 4. The second end of the conductor 3 is connected to the single-pin connector.

The electrode device is used as follows.

The device can be used in measuring potential and in measuring corrosion current.

When measuring the potential, the housing 1 with the contact element 2 is placed in the patient’s oral cavity so that the top of the pyramid of the contact element is located at the studied metallic inclusion, and the base is on the occlusal surface of the antagonist. The correct orientation of the pyramid is determined by the translucency of the plastisol from which the housing 1 is made. Conductor 3 is connected to the measuring device.

In the absence of antagonist teeth, the base of the pyramid must be pressed with a bite roller:

The free end of the flexible electrical location of the reference electrode (a plastic flexible tube filled with agar-agar) is placed at the bottom of the oral cavity.

When the dentition of the patient is closed, the top of the pyramid of the contact element 2 pierces the housing 1 at the point of contact with the surface of the metal prosthesis (seal). Circular contact point. Isolated from saliva, washing prosthesis, with plastic mass.

Further, the measurement results are read according to the readings of the measuring device.

When measuring the corrosion current, two electrode devices are connected through single-pin connectors to a measuring device (for example, a millivoltmeter). Pyramids are placed in the patient's oral cavity in this manner. In this case, the vertices of the pyramids are located at the surface of metal inclusions (a galvanic pair closed through saliva), between which the current is measured.

The proposed electrode device allows due to the tightness of the contact element to reduce the imposition of the own potential of the contact element on the result of measurements. The point contact during isolation of the contact point allows one to reduce the overlap on the result of measuring the phase separation potential of the metal prosthetic surface film - electrode. Measurement with closed jaws of the patient provides a determination of the electrochemical characteristics of metal inclusions in the natural conditions for the functioning of prostheses when they are washed with saliva and the proximity of antagonists from each other, which also affects the distribution of potentials in the oral cavity, and therefore the accuracy of the measurements of the electrochemical parameters of metallic dental dentures and fillings.

Claims (2)

Claim 1. An electrode device comprising a housing with a contact element connected to a conductor, characterized in that, in order to improve the accuracy of measuring the electrochemical parameters of metal dentures and fillings, the housing is made of cast-in-place plastisol. and the contact element has the form of tre5 1754089 6 coal isosceles pyramid and 2. The device according to claim 1, including the inside of the housing. with the fact that the body is cylindrical. Compiled by V. Ketenev