RU2616999C1 - Thermoelectric semiconductor device for contrast thermoodontometry with removable radiator - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: thermoelectric semiconductor device for contrast thermoodontometry with a removable radiator an actuating member with a thermoelectric system of exposure temperature change, and a temperature control and regulation unit associated with the temperature sensor. The actuating member consists of a set of removable attachments and a thermally conductive supporting unit. Each attachment consists of dielectric clamping plates of different shapes to fix the attachment on the tooth, a highly conducting gel pad, brought into contact with the tooth surface, a semiconductor thermoelectric module with projecting electrical terminals and an aluminium plate in the form of four-sided truncated pyramid to create a side guiding surface of the attachment. The gel pad is in thermal contact with hot junctions of the thermoelectric module, which reference junctions are in thermal contact with the aluminium plate. The inner surface of the gel pad comprises a temperature sensor. The supporting unit comprises a removable highly conducting-metal finned radiator pre-cooled by an external source, with guiding projections along the longitudinal side surface and a handle on the end surface, side wall of the supporting unit with slots for radiator insertion and fixing and beveled guides at the bottom to insert and fix the aluminium plate of the actuating removable attachment, and two pairs of grooves with electrical contacts for the projecting electrical terminals of the thermoelectric module. The temperature control and regulation unit is equipped with a portable impact NC key connected to the power supply.

EFFECT: improved accuracy of diagnosis, monitoring and adjustment of exposure temperature, creation of a temperature gradient between the source and the adjacent teeth, improved device weight and size, improved contact with the tooth surface, reduced process inertia under changing temperature conditions, increased response account speed.

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Description

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

Determining the reaction of a tooth to temperature stimuli is one of the oldest physical research methods, widely used to determine the condition of the pulp. Studying the reaction of pulp to irritants showed that a tooth with normal pulp reacts to significant temperature deviations. The indifferent zone (non-reaction zone) is 30 ° С (50 ÷ 52 ° С - reaction to heat, 17 ÷ 22 ° С - to cooling).

Teeth have both cold and thermal sensitivity. An adequate reaction (if heating and cooling cause a corresponding sensation) indicates the normal condition of the pulp. With inflammation of the pulp, a narrowing of the indifferent zone occurs, and with slight deviations from body temperature (by 5-7 ° C), a response already arises in the form of prolonged intense or aching pain. In addition, with inflammation, an inadequate reaction is noted: pain arises from cold and warm. Teeth with necrotic pulp do not respond to temperature stimuli.

As a prototype, a thermoelectric device for temperature diagnostics and electroodontometry of the condition of the teeth [1] is considered, containing an acting element including a copper probe placed in the housing, a thermoelectric battery in thermal contact with the copper probe and a flow radiator, and a direct current source made with the ability to set the exposure temperature, and a temperature sensor located inside the case.

The disadvantages of this device are its significant overall dimensions and low accuracy of temperature diagnostics as a result of:

- small contact area and loose fit of the copper probe to the tooth surface;

- the inertia of the heat exposure process due to the large overall dimensions of the device;

- the remoteness of the temperature sensor from the acting part of the tip;

- lack of automatic change of temperature conditions;

- lack of feedback from the patient.

The aim of the invention is to increase the accuracy of diagnosis, control and adjustment of the exposure temperature, create a temperature gradient between the original and neighboring teeth, improve the overall dimensions of the device, improve the quality of contact with the tooth surface, reduce the inertia of the process when changing temperature conditions, increase the speed of taking into account the patient’s feedback.

The goal is achieved in that the acting element consists of a set of acting removable nozzles and a prefabricated heat-conducting support block. Each acting removable nozzle consists of dielectric clamping plates of various shapes, fixing the nozzle on the tooth, a highly conductive gel pad brought into contact with the tooth surface, the elasticity of which will ensure its tight fit to the tooth surface, a semiconductor thermoelectric module with protruding electrical leads, an aluminum plate having the shape of a tetrahedral truncated pyramid to create a guide lateral surface of the acting removable nozzle. In this case, the high-conductivity gel pad is in thermal contact with the working junctions of the semiconductor thermoelectric module, the reference junctions of which are in thermal contact with the aluminum plate, and the inner surface of the gel pad contains a temperature sensor connected to the control unit and control the exposure temperature. The pre-fabricated heat-conducting support block includes a removable pre-cooled external source high-heat all-metal finned radiator with a handle made of material with low thermal conductivity, and removable side walls. In this case, the all-metal finned radiator has guiding protrusions along the longitudinal side surface and a handle from the end surface. The side walls of the pre-fabricated heat-conducting support block have grooves for inserting and fixing an all-metal finned radiator, beveled guides for the possibility of inserting and fixing an aluminum plate of an acting removable nozzle, and also a pair of grooves with electrical contacts for protruding electrical terminals of a semiconductor thermoelectric module. In this case, the control unit and the temperature control exposure is equipped with a portable disconnect key associated with the power supply.

The design of the proposed device is shown in FIG. one.

The device consists of a set of acting removable nozzles 1, a heat-conducting support block 2 and a block for controlling and adjusting the temperature of exposure 3. In turn, each acting removable nozzle 1 consists of dielectric pressure plates 4 of various shapes, fixing the nozzle on the tooth, a highly conductive gel pad 5, driven in contact with the tooth surface, the elasticity of which will ensure its tight fit to the tooth surface, the semiconductor thermoelectric module 6 with protruding electrical waters 7, an aluminum plate 8 having the shape of a tetrahedral truncated pyramid to create a guide lateral surface of the acting removable nozzle. In this case, the high-conductivity gel pad 5 is in thermal contact with the working junctions 9 of the semiconductor thermoelectric module 6, the support junctions 10 of which are in thermal contact with the aluminum plate 8, and the inner surface of the gel pad 5 contains a temperature sensor 11 connected to the temperature control and adjustment unit impacts 3. The pre-fabricated heat-conducting support block 2 includes a removable pre-cooled external source high-heat all-metal finned fin a radiator 12 with a handle 13 made of a material with low thermal conductivity, and removable side walls 14. In this case, the all-metal finned radiator 12 has guide protrusions 15 along the longitudinal side surface and a handle 13 from the end surface. The side walls 14 of the pre-fabricated heat-conducting support block 2 have grooves 16 for inserting and fixing an all-metal finned radiator 12, beveled guides 17 for the possibility of inserting and fixing an aluminum plate 8 of an acting removable nozzle 1, as well as a pair of grooves (in the left 18 and right 19 side walls respectively) with electrical contacts 20 under the protruding electrical terminals 7 of the semiconductor thermoelectric module 6. The control unit and control the temperature of exposure 3 includes a power supply 21, data with a programmable control unit 22, which receives a signal from the temperature sensor 5, containing a digital display 23, as well as a portable disconnect key 23, connected to the power supply 21.

The principle of operation of the proposed device is as follows.

Before using the device, a prefabricated heat-conducting support block 2 is assembled, namely, removable side walls 14 are put on a removable, all-metal finned radiator 12 pre-cooled by an external source using the guiding protrusions 15 inserted into the grooves 16. Next, the acting removable nozzles 1 are inserted into the heat-conducting support block 2 , selected in accordance with the shape of the teeth intended for diagnosis. It should be borne in mind that the extreme acting removable nozzles 1 by means of the protruding electrical terminals 7 of the semiconductor thermoelectric module 6 must contact the electrical contacts 20 in the left pair of grooves 18, and the central acting detachable nozzle 1 by means of the protruding electrical terminals 7 of the semiconductor thermoelectric module 6 must contact electrical contacts 20 in the right pair of grooves 19. This approach to the power of the acting removable nozzles 1 is necessary To differentiate the supply current value affecting the central nozzle and the detachable extreme acting removable nozzles with the subsequent possibility mirror changes. The distance between the acting removable nozzles 1 can vary in accordance with the geometry of the patient’s teeth, and the dielectric pressure plates 4 will allow it to be pressed more tightly when the device is in contact with them to improve thermal contact with the high-conductivity gel pad. Next, on the programmable control unit 22, the exposure temperature of the central acting removable nozzle 1 is set, which is displayed on the digital display 23. In accordance with the set temperature, the electric signal is supplied from the programmable control unit 22 to the power supply 21, which feeds the semiconductor thermoelectric module 6 of the central acting removable nozzle 1 by the magnitude of the current corresponding to a given exposure temperature, and on the semiconductor thermoelectric modules of the extreme acting x removable nozzles 1 from the power supply 21 is supplied with an electric current value corresponding to an exposure temperature of 36.6 ° C. When an electric current is supplied to the semiconductor thermoelectric modules 6, their working junctions 9 begin to cool or heat in accordance with the set exposure temperature and, through thermal contact, cool or heat the highly conductive gel pad 5, the temperature of which is detected by the temperature sensor 11 and transmitted to the programmable control unit 22, which generates magnitude of the supplied current. The stabilization of the temperature of the reference junctions 10 of the semiconductor thermoelectric modules 6 of all the used acting removable nozzles 1 is carried out through their thermal contact with aluminum plates 8 and a single heat-conducting support block 2. The temperature from the aluminum plates 8 is transferred through thermal contact to the removable all-metal radiator 12 from a material with high thermal conductivity. It should be borne in mind that the reference junctions 10 of the extreme acting removable nozzles 1 will cool the removable all-metal radiator 12 in the heat-conducting support block 2, and the reference junctions 10 of the central acting removable nozzle 1 will heat the all-metal radiator 12 (when cooling the bio-object). When changing the temperature of the impact of the central removable acting nozzle 1, a pain response of the patient is achieved along the upper and lower boundaries of the temperature interval, which he fixes by pressing a button on a portable disconnecting key 24, electrically connected to the power supply 21. The power of the semiconductor thermoelectric modules 6 in this case is stopped, and exposure temperature is fixed on a digital display 23.

Literature

US patent No. 4350488 A, 09.21.1982. Dental pulp tester / Laurance B. Devis.

Claims (1)

A thermoelectric semiconductor device for contrast thermo-odontometry with a removable radiator, comprising an actuation element with a thermoelectric system for changing the temperature of an exposure, a temperature control and adjustment unit associated with a temperature sensor, characterized in that the actuation element consists of a set of actuation removable nozzles and a heat-conducting support block, each acting removable nozzle consists of dielectric clamping plates of various shapes, fixing nasa a plate on the tooth, a highly conductive gel pad brought into contact with the tooth surface, the elasticity of which will ensure its tight fit to the tooth surface, a semiconductor thermoelectric module with protruding electrical leads, an aluminum plate having the shape of a tetrahedral truncated pyramid to create a guiding lateral surface of the acting removable nozzle, in this case, the highly conductive gel pad is in thermal contact with the working junctions of the semiconductor thermoelectric module, the supporting junctions of which are in thermal contact with the aluminum plate, and the inner surface of the gel pad contains a temperature sensor connected to the control unit and adjust the temperature of the exposure, in turn, the pre-fabricated heat-conducting support block includes a removable pre-cooled external source high-temperature all-metal finned a radiator with guiding protrusions along the longitudinal side surface and a handle from the end surface made of material with n low thermal conductivity, the side walls of the support block with grooves for inserting and fixing an all-metal finned radiator and beveled guides for the possibility of inserting and fixing an aluminum plate of an acting removable nozzle, as well as two pairs of grooves with electrical contacts for protruding electrical terminals of a semiconductor thermoelectric module, while the control unit and temperature control exposure is equipped with a portable disconnect key associated with the power supply.

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