RO104088B1 - Apparatus for caloric and vestibular testing and for auricular cleanings - Google Patents

Abstract

The invention relates to an apparatus for making caloric, vestibular and laundry samples and is used in otolaryngology. The apparatus of the invention is constituted together auricle, connected to a liquid pump, which has a connection immersed in a vessel with thermostatic liquid, pump that is controlled by a control block which determines the operating time and the liquid pressure from two potentiometers, the temperature of the ear his being preset by a block, whose signal together with uh signal delivered by a block that comprises and a temperature detector is applied to one control block, which controls, through a control block, supplying a power element heating, which maintains the constant temperature of the liquid from the vessel within 30 ° to 44 ° C, continuous adjustable.

Description

The invention relates to an apparatus for performing caloric, vestibular and auricular washes and is used in otolaryngology.

To perform the earwash, without the possibility of performing the vestibular caloric sample, the Guyon syringe is used, using which lightly heated liquid is introduced, under pressure, to dissolve the cerumen formed inside the ear or various small gauges, which can not be used by each individual, for the purpose of ear hygiene, also based on the use of a syringe to introduce the liquid and provided with two chambers, one of which contains the liquid to be introduced and which acts as a pump and the other, the liquid used by simple gravity.

These known devices have a number of disadvantages, namely:

- damage of the external auditory duct and / or of the tympanic membrane, of the patient, by manipulation of the syringe or inadequate pressure of the liquid;

- damage to the outer ear, by mistakenly assessing the temperature of the fluid for washing, which can cause burns or dizziness;

- introduction of uninfected liquids;

- psychic discomfort on some emotional patients, especially children;

- the possibility of injuring the medical personnel by breaking the syringe;

- difficult handling, due to the dimensions;

- increased energy consumption, through repeated heating, from cold, of the washing liquid; ·

- increased amount of time, through multiple operations necessary for a wash;

- the vestibular caloric test cannot be performed.

The object of the invention is to create the possibility of performing the caloric, vestibular sample and to facilitate the procedure for earwashing.

The problem solved by the invention consists in the creation of an apparatus with the possibility of performing the vestibular caloric sample and of the auricular washes, under the conditions in which the temperature, pressure and duration of the liquid jet can be adjusted, eliminating the thermal inertia of the heating element, so precisely maintaining the the temperature controlled .. of the liquid.

The apparatus ^ for vestibular caloric sample and auricular washes, according to the invention, removes the above disadvantages in that it consists of an earphone connected to a liquid pump, which has a connection immersed in a vessel with thermostatic fluid, pump which is controlled by a control block, which determines the operating time and pressure of the liquid from two potentiometers, the temperature of the liquid being preset by a block of the signal hose, together with a signal delivered by a block comprising a temperature sensor, applies to a control block, which controls, through a control block, the supply of a heating element, which keeps the temperature of the liquid in the vessel constant within the limits of 3O ... 44 ° C, continuously adjustable.

The following is an example of an embodiment of the invention in connection with FIG. 1 and 2 representing:

FIG. 1, block diagram of the apparatus;

- Fig. 2, the principle diagram of the apparatus.

The apparatus according to the invention and in connection with FIG. 1 is constituted by a headset 1 connected to a control block 2, a liquid pump 3, by means of two micro-switches 4 and 5, one which controls the timed start of the liquid jet. , and the other realizing the instant shutdown. The liquid pump 3 has a connection 6, through which the liquid is extracted from the vessel 7. The control block 2 adjusts with the help of two potentiometers 8, 9 the time and respectively the pressure of the liquid drop obtained from the headset 1, which can be, by for example, within the limits of 4 to mini104088 mum 15 s and a pressure ranging from zero «up to a pressure at which 85 ml of liquid is obtained, for 4 s.

The liquid in the vessel 7 is maintained at a constant temperature, by means of a heating element 10, controlled by a control block 11 which, in turn, is actuated by a control block 12, at the inputs to which two signals are applied and namely: a reference signal generated by a block 13, adjustable and a signal generated by a block 14, which has a noticeable element 15, immersed in the liquid in the vessel 7, for sensing the temperature of the liquid. The outputs of blocks 13 and 14 are applied, via a two-position switch 16, to a digital display device 17. This display device is applied to the input terminals, the voltage generated by the block 14 realized with the CIO and Cil integrated circuits (fig. .2) or the reference voltage given by block 13, these voltages are in the order of millivolts and coincide with the actual temperature of the liquid or respectively the reference temperature in degrees Celsius. at the same time, the voltage representing the actual temperature of the liquid and the voltage representing the prescribed temperature (reference) is applied to the temperature control block 12, at the input of the integrated circuit comparator CÎ2, from its output the signal is applied to the integrated circuit CI3, and from Its output signal is applied to the integrated circuit CI4. In order to reduce the stationary error from the output of CI4, the signal, whose voltage depends on the value of the reference voltage and the value of the voltage from the output of block 14, is applied to the control block 11 of the heating resistance, namely the integrated circuit CI5 that performs the application of an alternating voltage at the heating resistance terminals 10, proportional to the one received at the input, namely: when the input voltage in CI5 is zero, at the resistance terminals 10 the voltage is zero, when the input voltage is 7.5 V (maximum), at the terminals of resistance 10 apply the maximum voltage (220 Vdc). between these two values (0 ... 7.5 V at the input) there is a linear variation at the heating resistance terminals

10 from zero to 220 V.c.a. The actuation is done through the triad To.

The timing and actuation block of the liquid pump 2 comprises an integrated circuit Cl6, which performs variable timings in the range 4 ... 15 s, the adjustment is made from the potentiometer 8. The START and STOP controls are performed with the help of micro switches 4 and 5, and the integrated circuit CI7 realizes the actuation of the pump and the variation of the pressure, the pressure adjustment being carried out by means of a potentiometer 9, by means of two transistors Ti and T2.

The vestibular caloric sample is performed20 by adjusting the potentiometer 8 at t = 4 s and the potentiometer 9 at the maximum pressure position, the temperature being set successively at 30 and 44 ° C. The device achieves the condition of setting = 4 s and maximum pressure, to obtain the quantity of 85 ml of liquid.

The apparatus for caloric, vestibular and auricular washes, according to the invention, has the following advantages:

- simplicity and speed in handling and use, shortening the time required for a production;

. - it eliminates the possibility of injury to the external auditory duo and eardrum, by choosing the required pressure;

- removes the possibility of thermal damage of the external ear, due to the permanent automatic control and the display of the temperature of the washing fluid;

- the operating time of the liquid jet is adjustable and repeatable, instantly;

- allows disinfection of the liquid 45 for the washes at a constant concentration and in sufficient quantity for several procedures;

- ensures mental comfort, especially in children;

- removes any possibility of an act

6 identification of medical personnel;

- decreased energy consumption.

Claims (2)

claims 1. Apparatus for caloric, vestibular and auricular washes, characterized in that it consists of a headset (1) connected to a liquid pump (3), which has a connection (6) immersed in a vessel (7). ) with thermostatic liquid, the pump (3) being controlled by a control block (2), which determines the operating time and the pressure of the liquid in two potentiometers (8, 9), the temperature of the liquid being preset by a block (13), whose signal, together with a signal delivered by a block (14), which also includes a temperature detector (15), is applied to a control block, (12) which controls, via a control block, (11) the power supply a heating element (10), which maintains the constant temperature of the liquid in the vessel (7) within the limits of 30 ° and 44 ° C, continuously adjustable. The apparatus according to claim 1, 10, characterized in that, in order to reduce the stationary error of the liquid temperature, the temperature control block (12) comprises a buyer integrated circuit (Giz) whose output is connected via an integrated circuit. amplifier (CI3), an integration circuit with an integrated circuit (CI4).