RU216765U1 - Device for intracavitary administration of ozonized preparations to animals - Google Patents

Abstract

The utility model relates to veterinary equipment and is intended for intracavitary (intrauterine, intracisternal) injections of ozonized preparations of farm animals in livestock production facilities. The device contains a source of chemically pure oxygen, an ozone generator, a bubbling chamber, an ozone destructor, connecting and locking elements, a discrete oxygen supply regulator connected by a silicone pipe to an ozone generator containing a storage battery, a high-voltage converter and a gas-discharge chamber in a single housing; gas-discharge chamber is connected to a ceramic atomizer lowered to the bottom of the bubbling chamber, made in the form of a graduated vessel with an ozone-saturated solution, which is equipped with two outlet pipes, the end of one of which is located in the upper part of the vessel, is equipped with a shut-off valve and is connected to ozone destructor, and the second branch pipe is lowered to the bottom of the vessel, equipped with a stopcock and equipped with a catheter for intracavitary injections at the end, while the source of chemically pure oxygen is made in the form of an oxygen cylinder with a volume of 1.5 l, and the device itself is enclosed in a other portable case.

Description

The utility model relates to veterinary equipment and can be used in veterinary obstetrics and gynecology, for the treatment and prevention of pathologies of the reproductive tract and mammary gland in farm animals.

A device for ozonizing liquids is known, containing an ozone generator with an outlet pipe for connecting to an oxygen source, connected by an outlet pipe with a bubbling chamber with inlet and outlet channels, characterized in that it additionally contains a container tipper with the ozonized liquid, a device for penetrating the container with taps , the first of which is connected to the bubbling chamber, while the inlet channel connecting the bubbling chamber with the outlet pipe of the ozone generator, the initial and final branches of the bypass channel connecting the second outlet of the device for penetrating into the tank with the outlet pipe of the ozone generator and the outlet of the device, respectively, and the outlet channel , connecting the bubbling chamber with the output of the device, are equipped with locking elements [1].

The disadvantages of the device include its complex design, the lack of sufficient fluid pressure for intracavitary infusions, as well as low mobility, which does not allow the use of this invention in livestock farms.

It is known a device containing a reservoir with ozone or ozonized oxygen liquid, as well as a device for desufflation of fluid from the abdominal cavity. The specified liquid is injected into the abdominal cavity under pressure, which is 20-60 mbar [2].

The disadvantages of the device include the need for the presence of a pump supplying the solution into the cavity, as well as its stationary use of the device and the impossibility of introducing solutions in the process of ozone enrichment.

A device (prototype) is known, consisting of an ozone generator with a stabilization unit for the ozone concentration in the gas phase and an inlet pipe designed for connection to an oxygen source, while the outlet pipe of the ozone generator is connected by a channel through a locking element with a bubbling-type dispersant of the bubbling chamber, and the dosing needle connected through a branch with a disposable infusion system, the tube of which is inserted into the groove of the heat exchanger [3].

The disadvantages of this device are the complexity of the design, as well as the fact that ozonized solutions enter the body under the influence of their own gravity, while this pressure is not enough for intracavitary injections. Also, this invention has low mobility, which does not allow it to be used in industrial animal husbandry.

The purpose of developing a utility model is to create a device that allows safe intracavitary (intrauterine, intracisternal) administration of ozonized solutions to animals with direct enrichment with ozone in the conditions of production livestock buildings. This is the technical result.

The technical result is achieved by the fact that the device for intracavitary administration of ozonated drugs to animals, including a source of chemically pure oxygen, an ozone generator, a bubbling chamber, an ozone destructor, connecting and locking elements, according to the utility model, contains a discrete oxygen supply regulator (2) connected by a silicone pipe ( 3) with an ozone generator (4), containing in a single housing a battery (5), a high-voltage converter (6) and a gas discharge chamber (7), while the outlet from the gas discharge chamber is connected to the check valve (9) by means of silicone pipes (8) with a ceramic atomizer (10) lowered to the bottom of the bubbling chamber, made in the form of a graduated vessel (11) with an ozone-saturated solution, which is equipped with two outlet pipes, the end of one being located in the upper part of the vessel (12), equipped with a stopcock (13) and connected to the ozone destructor (14), and the second branch pipe (15) is lowered to the bottom of the vessel, equipped with stopcock (16) and at the end is equipped with a catheter for intracavitary infusions (17), while the source of chemically pure oxygen (1) is made in the form of an oxygen cylinder with a volume of 1.5 liters, and the device itself is enclosed in a single portable case (18).

Figure 1 shows a General view of the device.

The device consists (Fig. 1) of a source of chemically pure oxygen (1) in the form of an oxygen cylinder with a volume of 1 ... 1.5 l, a discrete oxygen supply regulator (2) connected by a silicone pipe (3) to an ozone generator (4). The ozone generator (4) contains a storage battery (5), a high-voltage converter (6) and a gas discharge chamber (7), which are enclosed in a single housing. The outlet from the generator (4) is connected to a ceramic atomizer (10) by means of silicone pipes (8) with a check valve (9), which is lowered to the bottom of the bubbling chamber. The bubbling chamber is made in the form of a graduated vessel (11) with a solution saturated with ozone. The vessel (11) is equipped with two outlet pipes (12 and 15). The end of one branch pipe (12) is located in the upper part of the vessel (11), is equipped with a stopcock (13) and is connected to the ozone destructor (14). The second branch pipe (15) is lowered to the bottom of the vessel (bubbling chamber) (11), has a stopcock (16) and is equipped with a catheter for intracavitary infusions (17) at the end. Structural elements (1-11) are enclosed in a single portable housing (18), connected by prefabricated operations and are in functional and constructive unity, while using the device, intracavitary (intrauterine, intracisternal) injections of ozonized solutions to animals are ensured in the conditions of production livestock buildings.

The device works as follows.

After opening the valve of the oxygen cylinder (1) and setting the discrete regulator (2) to the required gas supply rate, oxygen through the pipe (3) enters the gas discharge chamber of the ozone generator (4), where it is converted into ozone and enters the pipe (8) with a return valve (9), sinks to the bottom of the vessel with the bubbling solution (11) ending in a ceramic atomizer (10). At the same time, during the period of saturation of the solution with oxygen, the stopcock (13) of the branch pipe (12) opening in the upper part of the vessel (11) is in the open state, as a result of which the spent ozone-oxygen mixture enters the destructor (14), from which the reduced oxygen enters the external Wednesday. At the end of the saturation of the solution with ozone, the stopcock (13) of the branch pipe (12) leading to the destructor is closed, as a result of which the pressure in the vessel (11) with the enriched solution from the incoming ozone-oxygen mixture increases. After the introduction of the catheter (17) into the required cavity of the animal's organ, the stopcock (16) is opened, and the solution begins to flow through the pipe (15) lowered to the bottom of the vessel. Control over the volume of the injected solution is carried out according to the graduation located on the vessel with the bubbling liquid (11).

At the end of the procedure for intracavitary administration of the ozonized solution, the catheter (17) is removed from the organ cavity, the stopcock (13) of the branch pipe connected to the destructor is opened, and the oxygen supply is stopped. After filling the vessel with a new portion of the liquid, the procedure for ozone enrichment and intracavitary administration is repeated according to the described scheme.

The proposed device for ozonation and intracavitary administration of liquids is easy to maintain, and, given its small size and the presence of a battery, allows it to be used autonomously in industrial livestock farms.

Literature

1. Bulynin V.I., Meshcheryakov G.I., Novomlinsky V.V., Glukhov A.A., Moshurov I.P. Device for ozonizing liquids// Utility model patent RU 5728 U1, 01/16/1998. Application No. 96121634/20 dated 11/06/1996.

2. Schulz Z.D.M.V. Device for intraperitoneal application of liquid containing ozone or ozonized oxygen into the body of a human or animal and method of its application// Patent for invention RU 2377029 C2, 27.12.2009. Application No. 2007136806/14 dated 04.10.2007.

3. Parkhisenko Yu.A., Bekmishev I.B., Parkhisenko V.Yu., Zhdanov A.I., Meshcheryakov G.I. Device for infusion ozone therapy// Utility model patent RU 61562 U1, 10.03.2007. Application No. 2006110048/22 dated May 30, 2006.

Claims (1)

A device for intracavitary administration of ozonated drugs to animals, including a source of chemically pure oxygen, an ozone generator, a bubbling chamber, an ozone destructor, connecting and locking elements, characterized in that it contains a discrete oxygen supply regulator (2) connected by a silicone pipe (3) to the ozone generator (4), containing in a single housing a battery (5), a high-voltage converter (6) and a gas discharge chamber (7), while the outlet from the gas discharge chamber is connected to a ceramic atomizer (10) by means of silicone pipes (8) with a check valve (9). ), lowered to the bottom of the bubbling chamber, made in the form of a graduated vessel (11) with an ozone-saturated solution, which is equipped with two outlet pipes (12, 15), with the end of one located in the upper part of the vessel (12), equipped with a stopcock (13) and connected to the ozone destructor (14), and the second branch pipe (15) is lowered to the bottom of the vessel, equipped with a stopcock (16) and at the end of the It is equipped with a catheter for intracavitary infusions (17), while the source of chemically pure oxygen (1) is made in the form of an oxygen cylinder with a volume of 1.5 liters, and the device itself is enclosed in a single portable case (18).

Images