FR2595251A1 - Apparatus for treating rhinitis - Google Patents

Abstract

Apparatus for treating rhinitis, comprising a main body 1 which emits saline water in a storage vessel 3 in the form of an aerosol by an ultrasonic wave, in the heated state, together with air, and a water supply part 30 connected to the said main body. The air is conveyed under pressure into the storage vessel in the heated state in order to be mixed with the aerosol. An air current which is a mixture of aerosol and air is emitted by a nozzle 11 at the upper end of a flexible tube 10 towards a nose. A quantity of saline water in the storage vessel is kept in order to maintain a constant level.

Description

 The present invention relates to an apparatus for the treatment of rhinitis - which treats the discomfort caused to the mucous membrane of the nose by a cold or allergic rhinitis, and in particular it relates to an apparatus for the treatment of rhinitis which makes it possible to automatically supply physiological saline solution.

 The apparatus for the treatment of rhinitis is used to deliver a stream of humidified and heated air, at an appropriate temperature and humidity, at an appropriate speed, into the nasal cavity of a patient to quickly alleviate the symptoms of the common cold and allergic rhinitis.

 A conventional device for the treatment of rhinitis comprises an aerosol generator which atomizes physiological saline water in a storage tank into an aerosol by an ultrasonic wave, a device for blowing air, such as a blower or the like, which supplies air to discharge the aerosol to the outside, and a heating device which heats it to an appropriate temperature (43 C + 0.5 C).

 In such an apparatus, since the amount of physiological saline water decreases during use, the physiological saline water is supplied to the water storage tank from a container filled with physiological saline water, using a transfer container, such as a tank, bottle or the like.

 Consequently, in the conventional apparatus, the operation of supplying physiological saline water is very tedious.

In addition, when the salt sticks to the transfer container for supply, the concentration of physiological saline water changes, which requires periodic washing. As a result, use becomes complicated.

 The present invention relates to an apparatus for the treatment of rhinitis which makes it possible to eliminate the complication of the operation of supplying physiological saline water by providing an automatic supply of physiological saline water.

To achieve the above objects, in the present invention, a portion for water supply is equipped to automatically supply physiological saline water as a function of the change in the level of physiological saline water in the tank, thanks to the vertical support of the container containing physiological saline water. In other words, in the apparatus for the treatment of rhinitis in accordance with the present invention, the water supply portion is connected to the main body where physiological saline water in the storage tank is emitted under the aerosolized by an ultrasonic wave and in the heated state, together with air. The water supply portion includes
- a water supply tap removably attached to the outlet of a container filled with physiological saline, and fitted with a valve which hermetically closes the discharge outlet under the action of a spring,
- a pushing device provided on the water storage tank and pushing this valve against the action of the spring,
- And a support device which locks the water supply tap so that said container can be supported in the vertical position.

 When this water supply valve is attached to the outlet portion of the container containing physiological saline water, the outer portion of the container is sealed. When the container is inverted and fixed to the support device, the valve of the water supply tap is released by the pushing device and the physiological saline water is ready to be supplied.

In this state, when the outlet of the water supply tap is immersed in physiological saline water contained in the storage tank, physiological saline water will not leave said container. However, when the level of physiological saline water in the storage tank decreases, and an empty space is formed between the outlet and physiological saline water in the storage tank, an amount of water sufficient to fill this empty space flows from the container and a necessary quantity of physiological saline water is automatically supplied.

On the attached drawings
FIG. 1 is a diagram which shows the whole of an embodiment of the invention,
FIG. 2 is a plan view which shows the material portion thereof,
FIG. 3 is a sectional view along lines 111-111 of FIG. 2,
FIG. 4 is a characteristic view which shows a relationship between the atomized quantity and the water level,
Figure 5 and Figure 6 are sectional views which indicate the processing conditions.

The apparatus for the treatment of rhinitis according to the present invention comprises a main body 1 which emits physiological saline water in a storage tank in the form of an aerosol, and a portion of water supply 30, which supplies the storage tank with physiological saline water. The main body has
a water storage tank 3 in which physiological saline water 2 is contained at a fixed height at the bottom portion,
an ultrasonic wave oscillation element 5 provided at the bottom of the water storage tank 3,
- A heating device 8 and a ventila on device 9 which supply air to the water storage tank 3 in the heated state.

The ultrasonic oscillation element 5 is immersed in physiological saline water 2 in the water storage tank 3, and atomizes the physiological saline water in aerosol 4. At the upper part of the storage tank 3, are connected a ventilation pipe 6 and an interconnection pipe 7. The heating device 8 and the ventilation device 9 are connected to the ventilation pipe 6 in this order. Thus, the air is sent under pressure to the storage tank 3, in the heated state, to mix with the aerosol 4 in the storage tank 3 and to heat the aerosol to an appropriate temperature. Furthermore, a flexible hose 10 with bellows is connected to the upper end of said interconnection hose, and a nozzle It is provided at the upper end of the flexible hose 10. Consequently, the air flow, in which the The aerosol 4 and the air are mixed, is capable of being emitted by the nozzle II in an appropriate heating and humidity state. In addition, on the upper surface of the storage tank 3, a partition plate 12 is suspended which can thus prevent the reverse flow of the aerosol towards the ventilation pipe 6. In FIG. 1, the reference 17 is a control microcomputer, 18 is a thyristor and 19 is a source of electricity to stabilize the direct current. These devices exercise the control described below and are contained in an enclosure 24, together with the storage tank 3, the heating device 8 and the ventilation device 9. The control device 17 is connected to a temperature detector 14 provided in the nozzle 11. The control device 17 receives a sensitive signal when the temperature of the heated and humidified air in the nozzle 11 is slightly deviated from an appropriate temperature, and acts on the thyristor 18 to control the current supplying the device heating 8.

In addition, the amount of air supplied by said ventilation device 9 and the heating temperature supplied by the heating device 8 are controlled by the control microcomputer 17. In other words, The amount of air is controlled by the control of the number of rotations per minute of the fan and the heating temperature is controlled by the current control by means of the phase control of the thyristor 18.

 In addition, the regulation of the amount of air can be controlled by controlling a size of the surface of the air inlet opening and the heating temperature can be controlled by controlling the temperature at room temperature. using a thermostat. The electric current source for stabilizing the direct current 19 comprises a switching regulator or the like and supplies a constant direct current voltage to each element. The thyristor 18 is connected to a receptacle 21 outside the enclosure 24 by means of a fuse 20. In addition, the control microcomputer 17 is connected to a signaling lamp 22 and to a lamp. alarm 23 provided on the surface of the enclosure 24. The fuse 20 is provided to avoid any excess current. The signaling lamp 22 indicates the states "in preparation (in reheating)", "completion of preparation", "in use "or the like and the alarm lamp 23 informs an abnormal sending of wind (abnormal number of rotations of rotation of the fan motor), an abnormal temperature of the heating device 8, a lack of water in the storage tank d 3 and the like.

In this apparatus for the treatment of rhinitis, the water storage tank 3 is mainly provided outside the enclosure 24 and the water supply portion 30 is provided in this major part. The details of the water supply portion 30 are shown in Figures 2 and 3. The water supply portion includes a water supply valve 31, a pushing device 32 and a water supply device. support 33. The water supply tap 31 is formed by a body comprising a mounting portion 34 screwed onto the outer portion 13a of a container 13 filled with physiological saline water and a hollow injection portion 35 water interconnected to the mounting portion 34. In addition, a discharge portion 36 which forms the outlet of physiological saline water is open at the injection portion 35. In the lower part of this portion, a valve 37 is fixed having a surface with an arcuate section which closes the loading portion 36. Thus, the loading portion 36 of the tap 31 for supplying water is susceptible to be closed in a leaktight manner by the valve 37 urged by the force of the spring The pushing device 32 pushes the valve 37 upwards, against the action of the spring to open the loading portion 36. In this example, the pushing device 32 consists of a spindle rising vertically from the bottom of the water storage tank 3. The support device 33 removably fixes the water supply tap 31 to the water storage tank 3. In this example, the support device 33 consists of a pair of helical springs in opposition, the end portion of each spring being pivotally supported by the water storage tank. The helical spring acts to push the water supply valve 31 in the direction of the bottom of the water storage tank 3 by locking the upper portion of the water supply valve 31. Consequently, the container 13 to which the water supply valve is attached can be supported in an upright position. In this standing position, since the pushing device 32 pushes towards
The top of the valve 37 of the water supply tap 31 against the return action of the spring 38 as shown in FIG. 3, to release the loading portion 36, the supply of physiological saline water by the container 13 is made possible. In this eventuality, when the water supply tap 31 is immersed in physiological saline water, the supply is not carried out. On the other hand, when the physiological saline water in the boat storage tank 3 runs out as it is used by the device for the treatment of rhinitis and an empty space is formed between the bottom surface from the water supply tap 31 and the surface of physiological saline water in the storage tank 3 as a result of the drop in the water level, physiological saline water flows to container 13 for the purpose of l 'food. This supply stops automatically when the surface of physiological saline water immerses the level of the water supply tap 31. Thus, an appropriate quantity of physiological saline water is always contained in the storage tank. water.

 Fig. 4 is a characteristic view showing the relationship between the amount of atomization of physiological saline water atomized using the ultrasonic oscillation member 5 and the level of physiological saline water. The characteristic curve A has the shape of an arc of a circle and the maximum amount of atomization is shown at a level of about 45 mm. Thus, the amount of atomization can be maximized by fixing the water supply valve 31 in a position located about 45 mmm above the bottom.

 The treatment of this water supply portion will be described in FIGS. 5 and 6. The cover (not shown) fixed to the outlet portion 13a of the container 13 filled with physiological saline water for feeding is removed for the assembly of the water supply tap 31. In this state, since the discharge outlet 36 is closed by pushing the valve 37, by means of the spring 38, the physiological saline water in the container 13 will not even leak if the container 13 is turned over as shown in FIG. 5. Next, the water supply tap 31 is placed in a position fixed on the water storage tank 3 in the part outside the enclosure 24, in turning the container 13 over and locking the support device 33 on the water supply tap 31. The container 13 is then supported in a standing position with the outlet-13a positioned in the lower portion. In this position, as shown in FIG. 6, the pushing device 32 is inserted into the loading outlet 36 of the water supply tap 31 and pushes up the valve 37 in a direction opposite to the return direction. of the spring 38, so that, the discharge opening 36 being released, the automatic supply of physiological saline water is carried out by the operation described above.

 In addition, various variants other than the previous examples are possible. As the main body which produces the aerosol and emits it at an appropriate temperature, any other construction can be used. In addition, the shape of the water supply tap can also be changed and the support device which locks the water supply tap can be replaced by a clip etc. or by some other means.

 In accordance with the invention, the following effects can be obtained.

 Since the physiological saline water supply to the water storage tank and its stop are adapted to operate automatically, in order to follow the change in the physiological saline water level in the water storage tank, l The physiological saline water supply operation is simplified. In addition, since no transfer device is necessary, the washing operation of such a device is also not necessary and the treatment is improved.

Claims (4)

 1. An apparatus for the treatment of rhinitis according to which a water supply portion (30) is connected to a main body (1) which emits physiological saline water in a tank (3) for storing water in the form of an aerosol by an ultrasonic wave, together with the air in the heated state, said water supply portion being characterized in that it comprises:  - a tap (31) for water supply, removably attached to the outlet portion of a container (13) filled with physiological saline water, and provided with a valve (37) which hermetically closes the outlet discharge (36) under the action of a spring (38),  - a thrust device (32) provided on the water storage tank and pushing up this valve against the action of the spring; and  - a support device (33) which locks the supply valve in order to maintain said container in the standing position.  2. An apparatus for the treatment of rhinitis according to claim 1, characterized in that a construction for supplying physiological saline water is provided to fill an empty space between the lower surface of said water supply tap and the level of physiological saline water.  3. An apparatus for the treatment of rhinitis according to your claim 1, characterized in that the pushing device is a spindle which rises vertically from the bottom of the water storage tank.  4. An apparatus for the treatment of rhinitis according to claim 1, characterized in that the support device is a helical spring pivotally fixed on the water storage tank.