RU181925U1 - CAP FOR LIQUID TANK - Google Patents

Abstract

The utility model relates to devices used in the pharmaceutical industry and medicine for transferring volatile and hazardous to surrounding liquid substances to a special inhaler, for example, the medicine Sevofluran, which is used in surgery as a substance for general anesthesia during operations. The technical result consists in ensuring high tightness of the cork, eliminating losses and evaporation of liquids in the tank, which guarantees the safety of storage processes, transportation and liquids used for anesthesia, and transfusion into special inhalers. The stopper for the container with the liquid inside which the valve is placed, according to paragraph 1 of the formula, includes the upper narrow and lower wide cylindrical parts, and the valve contains a piston with grooves for the passage of liquid and with the upper element in the form of a truncated cone, and at the end of the tube a reciprocal outlet is made, overlapped by the upper piston element, configured to interact with a stop located in the neck of the inhaler. Moreover, a spring is fixed at the base of the piston, abutting the opposite end into a round through groove of a cross-shaped insert installed in the inner cavity of the lower wide part of the plug. According to paragraph 2 of the formula, an external thread is made under the cap and a female thread under the neck is in the lower part capacities. 5 ill.

Description

The utility model relates to devices used in the pharmaceutical industry and medicine for transferring volatile and hazardous to surrounding liquid substances to a special inhaler (vaporizer), for example, for the medical preparation Sevofluran, which is used in surgery as a substance for general anesthesia during operations .

Known designs of plugs made in the form of a closure body, inside of which there is a locking element in the form of a ball freely moving inside a conical insert. When pouring liquid from a bottle, the ball under the influence of gravity enters the convex part of the spherical segment, and the liquid flows out of it (RU 59539, publ. 12/27/2006, RU 30726, publ. 10.07.2003)

A known design of the cork, in which the locking element is made with the possibility of free movement during rotation of the bottle cap on the thread of the locking sleeve (RU 28109, publ. 03/10/2003).

However, these plugs are intended for manual pouring of wine-vodka and cognac liquids from bottles in a vertical position by gravity, while the locking element rises with the force of gravity along with the liquid, opening passage channels through which the liquid flows. Repeated topping up with liquids with this design is excluded.

The indicated constructions cannot be used for transfusion of special strong and vaporizing liquids used in the pharmaceutical industry and medicine.

The prototype is a cork, which is used in the wine and vodka industry and structurally prevents the bottle from filling again (RU 2148544, publ. 10.05.2000). The plug has a locking element in the form of a movable ball and a diaphragm with a segment for holding the ball. When pouring liquid from a bottle, the ball, under the action of gravity, enters the convex part of the spherical segment, and the liquid flows out of it. This design of the cork cannot be used for transfusion into the inhaler of pharmaceutical preparations that are used as substances for anesthesia, since it does not exclude their evaporation when opening the lid of the container during the transfusion and does not ensure the safety of the process.

The technical problem is to create a cork design that would ensure the safety of the storage, transportation, use, including transfusion of liquids used for anesthesia, into special inhalers (evaporators).

The technical result is to ensure high tightness of the cork, eliminating losses and evaporation of liquids in the tank, which guarantees the safety of storage, transportation and liquids used for anesthesia, and transfusion into special inhalers (evaporators).

The essence of the utility model lies in the fact that the plug for the container with the evaporating liquid, intended for use with the inhaler during operations, inside which the valve is located, includes the upper narrow and lower wide parts, and the valve contains a piston with grooves for the passage of liquid and with the upper element in the form of a truncated cone, and at the end of the tube a reciprocal outlet is made, overlapped by the upper piston element, configured to interact with a stop located in the neck of the inhaler, a spring is fixed to the piston base, abutting the opposite end against a non-through circular groove of the cross-shaped insert installed in the inner cavity of the lower wide part of the plug.

According to paragraph 2 of the formula, an external thread is made under the cap in the upper part of the cork, and an internal thread is made under the neck of the container in the lower part.

Opening channels for the passage of fluid into the neck of the inhaler (evaporator) is carried out in the case of pressing a spring-loaded valve with a piston of the claimed design. Without performing this action in any position of the container, pouring and evaporation of the liquid is not feasible, because the upper element of the piston will overlap the reciprocal outlet in the plug, ensuring reliable tightness of the contents of the container.

It is possible to ensure tightness at rest and free flow of fluid when the valve is pressed, if the valve consists of a piston with grooves for the passage of fluid and with an upper element in the form of a truncated cone, and a spring will be fixed at the base of the piston, abutting the opposite end against the through round groove of the cross-shaped insert installed in the inner cavity of the lower wide part of the cork. When connecting the plug to the inhaler (evaporator), the stop located in the neck of the inhaler (evaporator), when pressed on the upper element of the spring-loaded piston, will open the outlet of the plug and allow free flow of liquid from the container. At the end of the process, the spring-loaded piston will take its previous position, ensuring the initial tightness of the plug.

In addition, the inventive plug is universal. The universality of the design lies in the fact that a free flow of liquid from the tank to the inhalers (evaporators) is not equipped with the appropriate focus in the filler neck. For this, in the lower wide part of the cork, an internal thread is made under the neck of the container.

The cork is made with an external screw cap, for which an external thread is made under the cap in the upper narrow part of the cork.

The utility model is illustrated by the following figures.

In FIG. 1 shows a sectional view of a cork with a lid assembled; in FIG. 2 - plug valve piston in a perspective view. In FIG. 3 shows a spring insert in a perspective view, and FIG. 4 - insertion of the spring side and top. In FIG. 5 schematically shows the inventive plug in the position of the transfusion of fluid into the inhaler.

The plug 1 has an external thread 2 for screwing the cap 3 on it. The plug 1 has a narrow part 4 and a wide part 5 with an internal thread 6 for screwing it onto the neck of a container, for example, a bottle 7. The valve 8 contains a piston 9 with grooves 10 for the passage of fluid and with the upper element 11 in the form of a truncated cone. Valve 8 can be made of plastic using a 3D printer.

At the end of the plug 1, a reciprocal outlet 12 is made, which is blocked by the upper element 11 of the piston 9 by means of a spring 13 fixed at the base of the piston 9. The spring 13 abuts at the opposite end into a round groove 14 of the cross-shaped insert 15, which is fixed in the inner cavity 16 of the lower wide part 5 plugs 1 using the notch-protrusion connection.

In the upper part 4 of the plug 1, an external thread 2 is made under the cap 3, and in the lower part 5, an internal thread 6 is placed under the neck of the bottle 7. A stop 18 is placed in the inhaler 17. The channel formed by the grooves 10 of the piston 9 and the inner surface of the cavity of the narrow part 4 of the plug 1, communicates with the outlet 12 in case of pushing the piston 9 into the plug 1 with the stop 18.

The process of pouring liquid from a container into an inhaler (evaporator), for example, the Sevofluran medical preparation, which is in its primary liquid state, from a special plastic bottle 7 into an inhaler 17 through an outlet 12, is carried out as follows.

The screw cap 3 is removed from the plug 1. The product will not evaporate, because the element 11 of the piston 9, preloaded by the spring 13, will block the outlet 12 and block the process of evaporation of the drug in any position of the bottle 7, including preventing the pouring out of the liquid preparation when it is turned over.

In order to ensure a controlled flow of the drug into the inhaler (evaporator) 17, it is necessary to turn the container with the stopper 1 down, insert the stopper 1 into the hole of the inhaler 17, while the stop 18 will press on the element 11 of the piston 9 of the valve 8, opening the outlet 12 and ensuring leakage drug into the inhaler (vaporizer) 17 (shown by arrows in Fig. 5). The emphasis 18 is placed at an angle of 55 °, providing free flow of the drug from the plug 1 through the hole 12.

At the end of the process, remove the stopper 18 from the plug 1, the piston 9 returns to its original position, and the hole 12 is blocked by the element 11.

Since the stopper 1 can be removed from the neck of the bottle 7 when twisted, for which an internal thread 6 is made under the neck of the bottle 7 in the lower wide section 5 of the stopper 1, it is possible to freely transfer the drug to the inhaler 17 with the twisted stopper 1.

Thus, the claimed design of the cork ensures the safety of the process of storage, transportation and transfusion of fluids used for anesthesia into various special models of inhalers due to high tightness and elimination of spill and evaporation of liquids in the tank.

Claims (2)

A stopper for a container with evaporating liquid intended for use with an inhaler (evaporator) during operations, inside which a valve is located, characterized in that it includes an upper narrow and lower wide part, and the valve contains a piston with grooves for the passage of liquid and with an upper element in the form of a truncated cone, at the end of the tube, a reciprocal outlet is made, overlapped by the upper piston element, configured to interact with a stop located in the neck of the inhaler (evaporator), comb at the base of the piston is attached a spring, abutting the opposite end in the blind groove round the cruciform insert mounted in the inner cavity of the lower wide part of the plug. 2. Cork according to claim 1, characterized in that in the upper part of the cork an external thread is made under the lid, and in the lower part is an internal thread under the neck of the container.

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