RU185757U1 - Device for drying and aseptic storage of endoscopes - Google Patents

Abstract

The utility model relates to medical equipment and is aimed at improving the efficiency, reliability and convenience of drying and long-term storage of sterile flexible endoscopes and similar channel products. A device for drying and aseptic storage of sterile endoscopes containing a multi-tier rack with a supporting frame equipped with horizontal guides on which are installed removable containers for storing endoscopes, each of which is connected by an external pipe to the air circulation system, which includes compressors and connected with the compressor output air duct enclosed chamber germicidal air treatment, the at least one gas discharge lamp, a mercury low pressure to the outlet of which are connected external piping associated with the containers. Each container contains a housing with a lid, and an inlet pipe is installed in the casing wall - a fitting, to which an external pipe is connected externally, and internal connecting pipelines are connected to the end pipe for a connecting pipe - fitting to connect the channels of the endoscopes. In this case, the air circulation system is placed in a separate housing mounted on the rack frame, inside of which there is a compressor, an insulated chamber for bactericidal air treatment with a low-pressure mercury lamp equipped with a sealed housing, and power, control and monitoring units for drying and aseptic storage endoscopes.

Description

The utility model relates to medical equipment and is aimed at improving the efficiency, reliability and convenience of drying and long-term storage of sterile flexible endoscopes and similar duct products.

A trolley with containers for storing and transporting endoscopes is known from the prior art. It comprises a frame with swivel wheels, equipped with several pairs of opposite horizontal guide rails fixed at different levels of height, on which removable containers for storing endoscopes, including a box-shaped case and a lid, are installed (RU 175882 U1, A61G 12/00, 2017; RU 2637356 C1. A61G 12/00. 2017). The main disadvantage of this device is the lack of tools that ensure the sterility of endoscopes during storage.

The prior art also knows a device for storing sterile medical devices in the form of a cabinet, in one working compartment of which sterile medical instruments are placed, including endoscopes, and in the other technical compartment connected to the working air channel, means are provided for circulating air and bactericidal UV lamps (RU 106114 U1, A61L 2/10, 2010). This device provides storage of long medical instruments, including endoscopes, in disinfected air. However, the vertical placement of several endoscopes simultaneously in the working compartment reduces the efficiency and reliability of their sterile storage and transportation.

In addition, a prior art device for drying and storing sterile medical devices in the form of a cabinet with several shelves on which containers with endoscopes are installed, each of which is connected by a pipeline to the air supply system (WO 2009/153481 A1, A61B 1/12 , 2009). The main disadvantage of this device is the structural complexity of the air supply system and the lack of funds for bactericidal air treatment.

The technical result to which the utility model is directed is to create a constructively simple and easy-to-use device for efficient drying and long-term aseptic storage of sterile endoscopes in containers.

The solution of this problem and the achievement of the claimed technical result is ensured by the fact that in a device for drying and aseptic storage of endoscopes, containing a multi-tier rack with a supporting frame, equipped with horizontal guides on which removable containers for storing endoscopes are installed, each of which is connected by an external pipeline to the circulation system of air, according to a utility model, the air circulation system includes a compressor and an air pipe connected to the compressor outlet m is an insulated chamber for bactericidal treatment of air with at least one low-pressure mercury discharge lamp, external pipelines connected to the containers are connected to the outlet, each container containing a housing with a lid, and a connecting pipe - fitting, is installed in the housing wall, to which the external pipeline is connected externally, and inside the container, to the connecting pipe - fitting, internal connecting pipelines are connected for connecting the channels of the endoscopes.

In this case, the air circulation system is placed in a separate housing mounted on the rack frame, inside of which there is a compressor, an insulated chamber for bactericidal treatment of air with a low-pressure mercury lamp equipped with a sealed housing, and power supply, control and monitoring devices for drying and aseptic storage of endoscopes.

In addition, the air circulation system may further comprise a filter included between the compressor and the bactericidal air treatment chamber.

In addition, the frame of the multi-tier rack is made of prefabricated round pipes in the form of a trolley with rotary self-orientating wheels equipped with brakes, and includes two lateral U-shaped frames with vertical racks and an upper horizontal crossbar, to the vertical racks of which are attached docking bends on their inner side, bent downward along the radius, several pairs of opposite horizontal ties made of round pipes with the formation of guide rails for containers, while the side walls of the housing Container cover made from bent perimeter edges, the edges of which are bent downward equidistantly side surface of horizontal round tubes screeds-guide rails.

In addition, in the horizontal part of the bent edges of the side walls of the housing and the lid of the containers from two opposite sides in the installation direction between the vertical struts of the side U-shaped frames, coaxial holes are made in which the latches are inserted, provided with a marking indicator “clean” or “dirty”, which are made in the form of a curly stepped body of revolution.

Preferably, the case and the lid of the containers are made of bactericidal plastic - polymer with antimicrobial additives, which are biomodifiers, which are active plastic components that ensure surface sterility and eliminate odors, and / or biostabilizing additives that protect the plastic from the negative effects of microorganisms, causing a change in properties or the appearance of plastic.

In this case, the multi-tier rack frame is made of round metal pipes with an antibacterial coating based on powder paint with antimicrobial additives containing silver nanoparticles or silver ions.

In this case, the body of the air circulation system is made of a metal sheet with an antibacterial coating based on powder paint with antimicrobial additives containing silver nanoparticles or silver ions.

In addition, tire tires are made of thermoplastic elastomer with antimicrobial additives, which are used biomodifiers, which are active components of plastic, ensuring sterility of the surface and eliminate odors, and / or biostabilizing additives that protect the plastic from the negative effects of microorganisms, causing a change in properties or appearance plastic.

Alternatively, the air circulation system can be made with several, preferably by the number of containers, compressors connected in parallel.

The claimed placement in the body of the air circulation system of an insulated chamber of bactericidal air treatment, equipped with a sealed, preferably metal body, which separates the volume of the chamber of the bactericidal air treatment from the rest of the body of the air circulation system, eliminates the mixing of disinfected air with air from the environment into the system body air circulation, which makes it possible to effectively carry out the drying process and long-term storage of endoscopes in the environment disinfected and heated by the heat released during operation with a gas discharge mercury lamp, air. At the same time, the implementation of each container with internal connecting pipelines connected by external pipelines to the outlet fittings of the bactericidal air treatment chamber to which the endoscope channels are connected ensures the creation of an excess pressure of the disinfecting disinfected air leaving the endoscope channels in the container, which is closed, which eliminates the leakage “ dirty "air from the environment into a sterile container and increases the efficiency of long-term storage and sterility of endoscopes.

In addition, due to the implementation of the multi-tier rack frame of the device from tubular elements with horizontal ties in the form of guide rails for placing containers, the simplicity, strength and lightness of the structure due to the lack of solid sheet walls significantly simplify and improve the conditions for a technologically simple, reliable and efficient sanitary - hygienic, disinfection treatment of the device itself, which is necessary to maintain sterility during transportation and storage in containers of endoscopes.

The implementation of the frame of the multi-tiered rack with prefabricated round tubular elements, including two lateral U-shaped frames with vertical racks, to which several pairs of opposed horizontal ties are attached at different levels in height to form guide rails for placing containers provides both simplicity, strength and lightness of construction, and, accordingly, ease of use, as well as simplicity, reliability and speed of repeated assembly - disassembly. In addition, the use of the antibacterial coating of the tubular metal frame of the multi-tier rack and the casing of the air circulation system in combination with the implementation of tire tires of thermoplastic elastomer with antimicrobial additives and the construction of the casing and the cover of containers made of bactericidal plastic - polymer with antimicrobial additives additionally increase sterility as the frame of the rack itself, and containers with endoscopes during their storage and transportation.

In FIG. 1 shows a General view of the device for drying and aseptic storage of endoscopes; in FIG. 2 is a diagram of a device.

The device for drying and aseptic storage of endoscopes contains a multi-tier rack 1 with a supporting frame equipped with horizontal ties - guides 2, on which removable containers for storing endoscopes are installed, containing a housing 3 with a cover 4, and an air circulation system placed in a separate metal housing 5 a sheet mounted on a rack frame 1, inside of which a compressor 6 is installed and an insulated chamber 8 of bactericidal treatment connected to the compressor output 6 by an air pipe 7 a, equipped with a sealed housing 9, preferably of metal sheet or plastic with an internal reflective coating, equipped with outlet fittings 10 in which a gas discharge mercury lamp 11 (or several lamps) is installed, and power supply, control and monitoring devices for drying and aseptic storage of endoscopes (not shown in the drawing). In addition, the air circulation system may further comprise a filter 12 included in the air pipe 7 between the compressor 6 and the bactericidal air treatment chamber 8.

An inlet pipe is installed in the wall of the casing 3 of each container - fitting 13, to which an external pipe 14 is connected externally, connected to the corresponding outlet fitting 10 of the bactericidal air treatment chamber 8, and inside the container to the inlet pipe - fitting 13 are connected internal connecting pipelines 15 with connectors for joining the channels of endoscopes.

Alternatively, the air circulation system can be made with several compressors (preferably not shown in the number of containers) connected in parallel (not shown in the drawing), which makes it possible to regulate and maintain the same, necessary for efficient drying and long-term storage of sterile flexible endoscopes, disinfected air flow supplied from the bactericidal treatment chamber 8 to each container with a different number of their connections to the air circulation system.

The frame of the multi-tiered rack is made in the form of a trolley prefabricated from round pipes and includes two lateral U-shaped frames with vertical racks 16 and an upper horizontal crossbar 17, to which vertical racks from their inner side are attached docking bends, bent downward along the radius, several pairs of opposite horizontal ties 2 of round pipes with the formation of guides for containers, while the side walls of the housing 3 and the cover 4 of the containers are made with edges bent around the perimeter, the edges of which are closed Ute down equidistantly side surface of horizontal round tubes screed guide rails 2.

At the same time, in the horizontal part of the bent edges of the side walls of the housing 3 and the lid 4 of the containers from two opposite sides in the installation direction between the uprights 16 of the lateral U-shaped frames, coaxial holes are made (not shown in the drawing), into which the latches 18 are marked, marked indicator "clean" or "dirty", which are made in the form of a curly stepped body of revolution.

Preferably, the casing 3 and the lid 4 of the containers are made of bactericidal plastic - polymer with antimicrobial additives, which are biomodifiers, which are active components of the plastic that ensure surface sterility and eliminate odors, and / or biostabilizing additives that protect the plastic from the negative effects of microorganisms that cause change in the properties or appearance of plastic (see, for example, known additives, including those based on silver nanoparticles or silver ions, from: Ra J. D. Maer, Michael Schiller, Additives to Polymers, Reference / Translated from English by Editors VB Uzdensky, AO Grigorov - St. Petersburg: Profession, 2010 - p. 623- 628, 631-634. 643-647; or RU 104835 U1, A47G 19/00. Publ. 05/27/2011; or, for example, additives brand AlphaSan MB 32 PPADPP Milliken & Company), and / or biostabilizing additives that protect plastic from the negative impact of microorganisms causing a change in the properties or appearance of the plastic (see, for example, well-known additives from: Ralph D. Maer, Michael Schiller. Additives to polymers. Reference / Transl. from English Yaz. Ed. Uzdensky V.B., Grigorov A.O. - St. Petersburg: ed. "Profession", 2010 - p. 623-631. 643-647).

Preferably, the carriage frame made of round metal pipes and the body 5 of the air circulation system are provided with an antibacterial powder-based coating with antimicrobial additives containing silver nanoparticles or silver ions (for example, Biryusa 2080 epoxy-polyester powder paint with silver nanoparticles (AgNP) production of the company Nanomet Scientific-Production Company http://www.nanomet.ru/; epoxy-polyester powder paint of the INFRALIT EP / PE 8238 brand manufactured by TEKNOS http: //www.teknos. com /).

In addition, the carriage frame is equipped with rotary self-orientating wheels 19 with brakes, and the tires of the wheels 19 are made of thermoplastic elastomer with antimicrobial additives, which are used as biomodifiers, which are active plastic components that ensure surface sterility and eliminate odors, and / or biostabilizing additives that protect plastic from the negative effects of microorganisms, causing a change in the properties or appearance of the plastic (see, for example, well-known additives, including based on silver nanoparticles or silver ions, from: Ralph D. Maer, Michael Schiller, Additives to Polymers, Handbook / Translated from English by Editors VB Uzdensky, A. Grigorov - St. Petersburg: ed. "Profession", 2010 - S. 623-628, 631-634. 643-647; or RU 104835 U1, A47G 19/00. Publ. 05.27.2011; or, for example, additives brand AlphaSan MB 32 PPADPP Milliken & Company) and / or biostabilizing additives that protect the plastic from the negative effects of microorganisms, causing a change in the properties or appearance of the plastic (see, for example, well-known additives from: Ralph D. Maer, Michael Schiller. Additives to polymers. Reference / Transl. from English Yaz. Ed. Uzdensky V.B., Grigorov A.O. - St. Petersburg: ed. "Profession", 2010 - p. 623-631. 643-647).

The claimed device for drying and aseptic storage of endoscopes works as follows.

In the case 3 of a clean sterile container, a pre-sterilized flexible endoscope is placed or several endoscopes are connected to the inputs of the endoscope channels to the connectors of the internal connecting pipelines 15 connected to the pipe through passage - fitting 13, closed with a lid 4 and the latches 18 are inserted, marked with the “clean” indicator in coaxial holes made from two opposite sides in the horizontal part of the bent edges of the side walls of the housing 3 and in the horizontal part of the bent edges of the covers and 4 containers.

The containers with endoscopes are pushed along horizontal screeds - guides 2 into the carcass frame between the uprights of 16 lateral U-shaped frames. Then, an external pipe 14 connected to the corresponding outlet fitting 10 installed in the wall of the sealed housing 9 of the bactericidal air treatment chamber 8 is connected to an inlet pipe fitting 13 installed in the wall of the housing 3 of each container, and the compressor 6 and the connected to the ballast apparatus (preferably electronic - electronic ballasts) of the power supply gas discharge mercury lamp 11 of the chamber 8 bactericidal air treatment. In this case, air from the internal volume of the housing 5 of the circulation system, coming from the environment through the holes in the housing 5, enters the inlet of the compressor 6, is compressed and from the outlet of the compressor 6 through the air pipe 7, passing through the filter 12, enters the insulated chamber 8 bactericidal treatment air, where under the action of an ultraviolet bactericidal stream of radiation generated by a low pressure mercury discharge lamp 11, it is disinfected. The air disinfected and heated by the heat generated during the operation of the lamp 11 does not mix with air from the environment of the internal volume of the housing 5 and passes through the outlet fittings 10 installed in the wall of the sealed housing 9 of the chamber 8 for bactericidal air treatment, and through the external pipelines 14 and associated through passage pipes - fittings 13, the internal connecting piping 15 enters the connected to the last processed channels of the endoscopes. The air coming out of the treated channels enters the container body 3 under the excess pressure created by the compressor 6, and through leaks - the gaps between the body 3 and the container cover 4 go out into the environment, excluding the suction of “contaminated” air from the environment of the room into the container. As a result of the above circulation of heated and disinfected air, disinfecting treatment and drying in the volume of the sterile container of both the internal cavities of the channels and the external surfaces of the endoscopes and a long reliable aseptic storage of sterile endoscopes in a disinfected environment under excess pressure occur.

In the process of operation of the device for drying and aseptic storage of sterile endoscopes by means of a control unit, the operating time of the gas-discharge mercury lamp 11 and the shelf life of the endoscopes are controlled.

Alternatively, in a device, for example, designed to work with a different number of connected containers (for example, three, two, or one container) to increase the effective drying and duration of aseptic storage of sterile flexible endoscopes by supplying the same flow of disinfected air to each container, it is possible to use air circulation system with three compressors connected in parallel, and connect them to the air circulation system in an amount equal to the number of containers used.

Claims (9)

1. Device for drying and aseptic storage of endoscopes, comprising a multi-tier rack with a supporting frame equipped with horizontal guides on which removable containers for storing endoscopes are installed, each of which is connected by an external pipe to the air circulation system, characterized in that the air circulation system includes a compressor and an isolated chamber for bactericidal treatment of air connected to the compressor outlet by an air pipe, from at least one gas discharge mercury lamp low pressure, to the outlet of which external pipelines connected to the containers are connected, each container contains a housing with a lid, and an inlet pipe is installed in the casing wall - a fitting, to which an external pipeline is connected externally, and inside the container - to a fitting connected internal connecting piping for connecting the channels of the endoscopes. 2. The device according to p. 1, characterized in that the air circulation system is placed in a separate housing mounted on a rack frame, inside which a compressor is installed, an insulated chamber for bactericidal treatment of air with a low-pressure gas discharge mercury lamp, equipped with a sealed housing, and power supplies, control and monitoring the operation of the device for drying and aseptic storage of endoscopes. 3. The device according to claim 1 or 2, characterized in that the air circulation system further comprises a filter included between the compressor and the bactericidal air treatment chamber. 4. The device according to claim 1 or 2, characterized in that the multi-tier rack frame is made of prefabricated round pipes in the form of a trolley with swiveling self-orientating wheels equipped with brakes, and includes two lateral U-shaped frames with vertical struts and an upper horizontal crossbar, to vertical racks of which on their inner side are attached by connecting bends, bent downward along the radius, several pairs of opposite horizontal ties made of round pipes with the formation of guide rails for the container c, the side walls of the casing and the lid of the containers are made with edges bent around the perimeter, the edges of which are bent downward equidistantly to the lateral surface of the round pipes of the horizontal tie-rails. 5. The device according to p. 4, characterized in that in the horizontal part of the bent edges of the side walls of the housing and the lid of the containers, coaxial holes are made on two opposite sides, into which latches are inserted, provided with a marking indicator “clean” or “dirty”, which are made in the form of a curly stepped body of revolution. 6. The device according to p. 1 or 2, characterized in that the case and the lid of the containers are made of bactericidal plastic - a polymer with antimicrobial additives, which are biomodifiers, which are active components of the plastic that ensure surface sterility and eliminate odor, and / or biostabilizing additives that protect the plastic from the negative effects of microorganisms, causing a change in the properties or appearance of the plastic. 7. The device according to claim 4, characterized in that the multi-tier rack frame is made of round metal pipes with an antibacterial coating based on powder paint with antimicrobial additives containing silver nanoparticles or silver ions. 8. The device according to p. 2, characterized in that the housing of the air circulation system is made of a metal sheet with an antibacterial coating based on powder paint with antimicrobial additives containing silver nanoparticles or silver ions. 9. The device according to p. 4, characterized in that the tire wheels are made of thermoplastic elastomer with antimicrobial additives, which are biomodifiers, which are active components of plastic that ensure surface sterility and eliminate odor, and / or biostabilizing additives that protect plastic from negative exposure to microorganisms causing a change in the properties or appearance of the plastic.

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