NL8202262A - TRANSPORTATION FOR ULTRASONIC RESPIRATORS AND THE LIKE. - Google Patents

Description

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Transporter for ultrascore respirators and the like.

The invention relates to an ultrascore respirator with a replaceable inhaler container, means for transferring liquid to the resonant head and transport means.

Respirators for treating the respiratory tract and pharynx are well known, the inhaler being vaporized on resuscitation caps which are vibrated by ultrasound. Resistor caps of this type are also known as "ultrasonic evaporators". The mist lacks a constant droplet size, which is produced by evaporation of the inhaler, acts on the mucous membrane when inhaled into the nasopharynx or on the surfaces of the blood vessels in the lungs, when inhaled deeper into the arterial tract, depending on the diameter of the the drops. It is known to provide the respirators with a replaceable inhaler storage container so that pre-measured amounts of active ingredient can be administered (DE-OS 28 35 135).

This prevents overdose due to the use of linhalers with toxic properties. In. the known device, the inhaler is transferred to the evaporator element by the capillary effect. An even stream of inhaler to the evaporator cannot be guaranteed due to the different compositions of the inhalers and the different viscosities of the different inhalers, (oils, emulsions, aqueous solutions, etc.) However, an even stream is not absolutely essential for achieving excellent therapeutic results In addition, the transport action and the inhalant mist in this known device are not interrupted during the expiratory phase, which means that some expensive and very expensive inhaler is wasted.

The object of the invention is to pre-select the drawbacks of well known respirators and to deliver an ultra-high performance respirator for various applications, whereby accurately determined amounts of inhaler can be uniformly fed to the resistor head per unit of time. independent of the property or composition of the inhaling agent.

This object has been achieved with the characteristic that the transport means comprise an electric motor, transmissions, pressure plate, housing and a deformable inhaler container are mounted in the housing, while the power reduction of the transmission is in the form of a hollow shaft with a concentric in length -directional slot, wherein the threaded spindle in the form of a womwheel is guided with its pin at the power take-off end in the hollow shaft, while pin 15 cooperates with the longitudinally extending slot, the spindle being guided in a two-piece bearing coupled to the housing, with one half of the bearing being rigidly connected to the hat housing, while the other half, in the form of a threaded thread, is connected to an exo-antique, a transport cap closure; the housing is hinged, which hinge has the shape of an exoentriak and the eccentric pig is connected to half of the bearing which is in the form of a threaded cat.

This ensures that the same amount of inhalant is always supplied to the resuscitator plate, despite the different compositions of the inhalants. An important advantage here is that the inhaler can be packaged and supplied by the manufacturer in certain, i.e. metered, quantities. The possibility of an unfortunate or intentional overdose, for example of yeasty drugs, is excluded. During the exhalation phase, the transport of inhaler is interrupted by a switch.

The exchange of a prepackaged container of medicament can be carried out very efficiently. Indian the transport chamber. When the closure is clamped, the two-piece bearing and the push rod 8202262 -3- <'= * «in the form of a threaded spindle abruptly return to its original position. In this position, the empty container can be replaced by a container, so that the respirator is immediately ready for new use.

5 After inserting a new inhaler canister, the compression spring attached under the push rod presses the push rod plate against the base of the inhaler canister. This avoids long idle time. In turn, the electric actuator for the transporter is engaged, the pressure of the push rod on the base of the inhaler hoister is operating, and the inhaler itself is transferred through the tube from the inhaler container to the adhesive cap. According to the invention, the switch for the conveyor may also be constructed as a nebrason switch responsive to the suction caused by inhalation and initiating the inhaler transference manual at the beginning of each breath. While the user exhales and in pauses between breaths, no suction is generated in the device, the menu switch reacts and the transport of inhaler 20 to the evaporator is stopped. At the drip end of the transport kairer seal, a pen protruding into the transport chamber itself requires the wall of the inhaler container after the Vervonribane inhaler container has been emptied. This allows the container to be filled with other substances by a layman and reused for improper inhalation treatment. The provision of an inspection window in the housing makes it reasonable for a user to know how much inhaler has already been used and for how long the inhalation operation must be continued in order to completely empty the container.

In some cases, it may be extremely detrimental for the evaporative inhaler to come into contact with the vein inhalation organs. should be treated while these inhalers are still cold. This can lead to irritation and in some cases reduce or even completely nullify the therapeutic effect of the inhaler.

The object of another aspect of the invention is to provide an ultrasonic respirator in which the inhaler is heated to the optimal treatment temperature for the inhaler before it is evaporated on the retention head.

According to this aspect of the invention, the problem is solved by the feature that the tubular transport member is contained in a block and the bide is electrically heated. This may consist of PTC material.

According to a further feature of the invention, the block consists of two parts. The parts. of the bide are diamonds and the transport member is located between the parts of the bide. According to the invention, the transport member can be an elastically formable tube and the tube heat is maintained at 90 ° C. However, it is possible that the transport member consists of a holla needle.

In this way it is ensured that the inhaler is heated to the desired temperature qp its way from the inhaler container to the resonance plate. The inhaler no longer churns on the evaporator plate in a cold state, but is heated to the optimum therapeutic temperature,

It is particularly expedient if the bide is made of a PTC material since the choice of a resist material will overheat the block and thus the inhaler, and there is no need for any temperature limiters. The fact that hat blck is divided into two parts means that the liquid transport means can be easily inserted into the bide. Moreover, this makes it possible for the two block parts hinged together to be exchanged or replaced. Depending on the desired temperature of the inhaler, it is possible to use a block portion made of PTC material with a higher transition temperature or a lower transition temperature. The use of an elastically deformable conveyor that is heat resistant to -90 ° front that the inhaler is overheated before it is dipped on the 8202262 ♦ -5 evaporator plate of the ultrascore kqp. The use of a hollow needle as the transporter, on the other hand, accelerates the transfer of heat from the heated blck to the inhaler and the same element serves to make a hole in the phosphor container used, which is supplied in sealed form .

The invention will be explained in more detail below with reference to the drawing, in which, by way of example, an embodiment of a device according to the invention is shown. In the drawing tocnt:

Fig. 1 is a longitudinal section through an ultrascore respirator according to the invention, FIG. 2 is a diagram of another embodiment, and FIG. 3 is a section along the line ΪΙΪ-ΙΪΙ of FIG. 2.

Fig. 1 shows the detail of an ultrascore respirator with a replaceable inhaler container 1, and means 2 for transporting liquid to the resonance head 3. As shown schematically, the means .2 for transporting liquid lies against the resilience plate 4. If the The transport member is turned on, the inhaler is released from the end of the liquid transport member and is evaporated on the resistor plate 4 of the resistor head 3. The actual transport member 5 consists of the electric motor 6 with a transmission 7 mounted thereon. The transmission 7 operates on the power output 10 and causes it to rotate as the hollow shaft connected thereto when the motor is operating. The screw spindle 13 is mounted in the hollow shaft -11,

At its lower end, the screw spindle 13 has a. pep, 14 which cooperates with a longitudinal slot 12 in the hollow shaft 11, The screw spindle 13 is mounted between the fixed half 15 of the bearing and the bearing half 16 which is provided with an internal thread, The free end of the screw spindle 13 has a pressure plate 8 and presses with the pressure plate 8 against the base surface of the inhaler container 1. The inhaler container 1 is located in the transport chamber 5 which is sealed by the transport chamber wall 18.

8202262 -6-

This transport chamber wall 18 is hinged to the housing 9 via an exoentric 17 and is held in the closed position by the locking member 19. When the transport chamber wall 18 is closed, its exentric movement causes the transport chamber wall 18 to press against the bearing half which has an internal thread. and that ode is loaded by the force of a spring 20. The eccentric movement causes the bearing half 16 to cooperate with the outer thread 13 of the lead screw.

At the lower end of the hollow shaft 11 is a compression spring 21 10 which acts on the base surface of the lead screw 13. A inspection window 24 for detecting the inhaler container 1 is arranged in the transport chamber 5. The membrane switch 22 is mounted within the respiratory respirator.

The transport chamber 5 is opened by unlocking the transport chamber closure 18. This causes the bearing half 16 having an internal thread to move out of cooperation and the lead screw 13 to be movable in the holla shaft 11 against the force of the compression spring 21. After the pressure plate 8 is pressed down, the inhlaer resource holder 1 is placed in the transport chamber 5 and this chamber 5 is sealed by means of the transport chamber closure 18 by co-operating the locking member 19, The bearing half 16 having an internal thread cooperates with the thread of the screw spindle 13. The suction induced in adenjhaJen turns on the menu frame switch 25 22. This feeds the motor 6 with stream and screw spindle 13 with pressure plate 18 is pressed against the base of the inhaler container 1. The liquid transfer member 2 transports the inhalant to the resistor head plate 4 of the resistor 3 but it is evaporated. The inspection window 24 allows to see how much inhaler is contained in the inhaler container.

A tray 23 formed in the base of the container 1 adjacent to the pressure plate 8 serves to break the top edge of the container when it is empty and thus prevent an unauthorized use thereof.

8202262 -7- *

Figures 2 and 3 schematically show an ultrascore respirator which has means for heating the active substance before administration. As in the previous embodiment, a conduit 2 transports the liquid substance from the container 1 to the resence plate 4 of the resection head 3. However, in this case a heating block 25 is located around the conduit 2 which is electrically heated by heating the active substance. as it goes to the resection head to reach the optimum temperature for treatment.

Hat blck 25 is formed of two halves 26, 27 which are interconnected in a diamond manner by a hinge 28 to arm conduit 2. Half 26 is electrically heated by resistance and conducts heat through conduit 2 to the active substance.

8202262

Claims (13)

Ultrascore respirator with a replacement banana inhaler holder, means for transporting liquid to the resuscitation head and transport means, characterized in that the transport means consist of an electric motor (6), a transmission (7), a pressure plate (8) , a housing (9) and a deformable inhaler container (1) disposed in the housing, the power take-off (10) of the transmission (7) being in the form of a hollow shaft (11) with a centric longitudinal slot (12), the screw spindle (13) in the form of a winding ratchet is guided with its pin (14) at the power take-off end in the hollow shaft (11), the pin (14) cooperates in the longitudinal slot (12) , the spindle (13) is guided in a two-part bearing (15, 16) which is connected to the housing (9), one half (15) of the lower bearing being fixed to the housing (9) while the other half (16) in the form of a threaded camper, associated with an exaentric (17), while a transport chamber lock (18) is pivotally attached to the housing (9), the lock hinge being in the form of an eccentric (7) and the exaentric 20 (17) being operatively connected to the bearing half (16). 2. Ultrascore respirator according to claim. 1, characterized in that the locking member (19). with the clasp (18) is connected to the bearing half (16) In the form of a guide wire cartridge operatively connected to a spring (20). Ultrascore respirator according to claim 1, characterized in that the spindle (13) is operatively connected to a compression spring (21). Ultrascore respirator according to any one of the preceding claims, characterized in that a meirphoric switch (22) is mounted in the housing (9) and this switch (22). is coupled with the transport member (5). Ultrascore respirator according to any one of the preceding claims, characterized in that at least one pin (23) protruding into the transport chamber (9) is mounted on the pressure end 35 of the. transport chamber lock (18). 8202262 -9- Ultrascore respirator according to any one of the preceding claims, characterized in that an inspection window (24) is arranged in the housing (9). 7. Ultrascore respirator with a 5-channel piping. liquid from a conveyor to a resistor head, characterized in that the conduit (2) passes through an electrically heated bide (25). Ultrascore respirator according to claim 7, characterized in that the blfo (25) is formed from PTC material. 10 Ultrasonic respirator according to claim 7 or 8, characterized in that the block (25) is formed in two parts (26, 27) which are hinged together and the conduit (2) is located between these two parts (26, 27). ). Ultrasonic respirator according to claim 7, 8, 15 or 9, characterized in that the conduit (2) is in the form of an elastically deformable tube which is heat resistant up to ± 90 ° C. Ultrascore respirator according to claim 7, 8 or 9, characterized in that the conduit (2) consists of a hollow needle. Ultrasonic respirator according to claim 11, characterized in that the hollow needle serves to make: a hole in the inhaler container (1) which is delivered in sealed form. 13. Ultrascore respirator as shown in the drawing and / or discussed on the basis thereof. 8202262