RU2083226C1 - Disinfecting apparatus (alternative embodiments) - Google Patents

Abstract

FIELD: medical engineering; disinfecting devices, predominantly for disinfecting bed clothes. SUBSTANCE: according to first alternative, disinfecting apparatus comprises chamber housing electric heaters, and elements for accommodating objects to be disinfected. According to another alternative, apparatus further comprises horizontally arranged carriage adapted to perform shuttle movements and to accommodate objects to be disinfected. Chamber is additionally provided with ultraviolet radiating lamps arranged above and under carriage, and with humidifiers arranged on either side of carriage. According to yet other alternative embodiment, apparatus further comprises three independent conveyors, viz. charging one, intra-chamber one, and discharging one, while apparatus chamber is fitted with ultraviolet radiating lamps and humidifiers arranged on either side of conveyor, band of which is made of netting. According to fourth alternative apparatus comprises single conveyor and its chamber has ultraviolet radiating lamps and humidifiers arranged on either side of conveyor. EFFECT: highly versatile apparatus available in four alternative versions to meet specific requirements of any user. 9 cl, 3 dwg

Description

 The invention relates to medical equipment, in particular to disinfection devices, mainly for the disinfection of bedding (mattresses, pillows, blankets).

 Various disinfectants are known: chemical, physical and biological.

 The most common of these are physical means, such as high temperature treatment (hot air, water vapor at elevated and normal pressure), ionizing radiation and ultraviolet radiation.

 Various constructions of disinfection devices are known (see A.N. Karasev, A.G. Makarov and R.A. Karelin "Album of disinfection chambers" edited by A. A. Ryzhov and G. A. Michelson. State publishing house of medical literature. M Medgiz, 1934).

 The disinfection devices described in the Album work on different principles, however, the most effective from the point of view of the achieved disinfecting effect is the steam-formalin method, in which in the chamber where the items to be disinfected are placed, they create an atmosphere of hot water vapor and formaldehyde dissolved in them. Processing with such a gas-vapor mixture disinfects objects infected with microorganisms and spores. This processing method is called the steam-formalin method, in contrast to the steam-air method, which is also effective and widely used, but it is carried out at a higher temperature.

 A significant drawback of all the disinfection devices listed in the Album is that they work on methods after which the items are completely wet and need to be dried, which, when used repeatedly, has a destructive effect on the processed items. In addition, drying requires additional energy and complexity.

 A device is known for processing a movable web by a.s. N 1314948, where the processing is carried out by hot air in automatic mode.

 A known method of inhibiting the growth of microorganisms in the air by AS N 1180002, where the treatment is carried out by a stream of ionized air.

 A known method of sterilization of a medical instrument with microwave currents by AS N, 11223705.

 Known devices for disinfecting objects with a laser method as. NN 670189 and 969273.

 A known method of chamber sterilization by AS N 585848, in which high pressure steam is supplied to the chamber.

 All known disinfection devices are either difficult to use, or require subsequent drying, or are ineffective for the treated items (mattresses).

 The closest in technical essence and the proposed technical solution is an electro-disinfection device for AS N 599809, containing a chamber having an entrance and exit door with electric heaters, steam generators for water, formalin and liquid ammonia placed in it, as well as boards for placing processed objects on them. The inside of the chamber is lined with porous heat-insulating material and has a pipe on the ceiling wall for connecting the internal cavity to the exhaust ventilation.

 The described device, taken as a prototype, can work both in the steam-formalin and steam-air modes.

 The disadvantage of the prototype device is that the processing of bedding in it is time consuming, requires a lot of time, processed items need drying, which not only destructively affects them, but also requires additional energy.

 The problem to which the invention is directed, is to increase the efficiency of disinfection of bedding (mattresses, pillows, blankets).

 The essence of the invention lies in the fact that in a disinfection device containing a chamber having an inlet and an outlet, inside which electric heaters are placed, as well as elements of water supply and accommodation of processed items, a horizontally located shuttle carriage is added to accommodate processed items on it, fixed in three positions : in front of the camera (for loading processed items), in the camera (for processing items) and after passing through the camera (for unloading processed items), when In this case, ultraviolet lamps located above and below the carriage, and humidifiers, also located on both sides with respect to the carriage, are additionally installed in the chamber.

 According to the second variant of the proposed technical solution, three self-operating conveyors (loading, intracameral and unloading) are additionally introduced into the disinfection device containing an inlet and outlet chamber, inside which electric heaters are located, as well as elements for water supply and accommodation of processed items. UV lamps located above and below the in-chamber conveyor, and humidifiers, also located at two hundred it is in relation to the conveyor. at the same time at the intracameral conveyor the web is made of mesh.

 According to the third variant, the disinfection device can be made with a single conveyor located in the chamber, as well as in the loading and unloading compartments; his canvas is made of mesh.

 In addition, in all versions of the disinfection device, humidifiers are made in the form of perforated tubes located at the entrance to the chamber, and at the outlet of the chamber on both sides of the carriage (conveyor) there are two slotted intakes of the vacuum cleaner.

 The introduction into the chamber of the disinfection device of a horizontally located shuttle carriage, fixed in three positions (according to the first version of the proposed technical solution), facilitates the loading and unloading of processed items.

 The introduction of three conveyors into the disinfection device (according to the second option) allows to significantly increase the throughput of the installation compared to the first option and make the processing process continuous, as well as automate the entire processing process.

 The implementation of the third version of the device with a single conveyor will allow in some cases to simplify the design of the device.

 The implementation of the conveyor belt of the mesh allows you to create conditions for high-quality irradiation of the workpiece from its lower side.

 The introduction of ultraviolet lamps into the chamber makes it possible to more efficiently carry out the processing process and lower the temperature in the chamber.

 The introduction of dosed moistening of the processed objects allows to increase the effect of disinfection in comparison with a dry chamber. At the same time, no vapor forms in the chamber throughout its volume, which reduces the efficiency of ultraviolet irradiation less in comparison with a chamber completely filled with steam. In addition, such humidification allows to lower the processing temperature compared to a dry chamber, and this, in turn, allows the use of ultraviolet lamps directly in the chamber.

 Introduction at the outlet of the vacuum cleaner chamber improves the quality of processing, because due to this, the processed objects will be cleaned of dust and insect debris.

 From patent and technical literature, as well as from domestic and foreign practice, we are not aware of the objects under consideration that have the claimed features.

 Figure 1 3 presents a schematic diagram of the proposed disinfection device according to the first, second and third options, respectively.

 The proposed disinfection device according to the first embodiment comprises a chamber 1 with two windows (input 2 and output 3) with curtains 4 and 5 suspended in the working position. In the middle part of the chamber 1 there is a frame with guides 6 along which the carriage 7. Moves above and below the carriage 7, ultraviolet lamps are strengthened 8. Electric heaters 9 (heating elements) are located in the chamber. In front of the chamber 1, a table 10 with guides 11 for the carriage 7 is installed in the loading compartment. There is also a table 12 and guides 13 in the unloading compartment. Two humidifiers 14 and 15, made in the form of a perforated tube, are installed at the chamber inlet. Humidifiers are placed on both sides of the rails 11 and are connected to the water tank 16, where the water is mixed with compressed air. At the camera outlet, intakes 17 and 18 of the vacuum cleaner are installed. They are also placed on both sides of the guides 13. The humidifier 14 and the intake 17 are mounted to move relative to the humidifier 15 and the intake 18, respectively, which allows you to change the gap between them depending on the height of the processed items. A control unit 19 and a water tank 16 are located on the ceiling wall of the chamber 1.

 The proposed disinfection device according to the second embodiment comprises a chamber 20 with two windows 2 and 3. In the middle part of the chamber there is a conveyor 21, the working web of which is made of metal mesh 22. In the loading and unloading compartments there are loading 23 and unloading 24 conveyors. Ultraviolet lamps 8 are mounted inside the chamber 20 above and below the conveyor. Two humidifiers 14 and 15 are located at the inlet of the chamber 20, and two slotted intakes 17 and 18 from the vacuum cleaner are at the outlet of the chamber 20. A control unit 19 and a water tank 16 are placed on the ceiling wall of the chamber.

 The disinfection device according to the third embodiment differs from the device of the second embodiment only in that, instead of three conveyors, there is only one conveyor 26 in it, leaving both the loading and loading compartments, while its web is made of mesh 22.

 The work of the proposed disinfection device according to the first embodiment on the example of processing mattresses is performed in the following sequence.

In the chamber 1, with the help of electric heaters 9 and ultraviolet lamps 8, air is heated to 80 ^° C. Then, mattresses 25 are placed on the carriage 7 in the loading compartment and the carriage 7 is moved into the chamber 1. Immediately before moving the carriage 7, water is supplied to the humidifiers 14 and 15. Thus, the mattresses 25 enter the chamber 1 in a moistened form. In the chamber, the mattresses 25 are exposed to elevated temperature and ultraviolet radiation (with a specific radiation energy of 4.5 5 μV / s per 1 cm ² surface), which provides heating directly on the surface of the mattress to 100 ^o C. In this case, water droplets contained on the surface of the workpiece as a result of its moistening, turn into steam, which immediately penetrates into the workpiece, and then disappears as a result of heating. Thus, processed items become dry. After holding the mattresses in a chamber with the desired exposure (for example 15 minutes), the carriage moves to the unloading compartment, where it is unloaded.

 At the same time, at the exit from the chamber, the processed objects are cleaned with a vacuum cleaner from dust and insect debris. Inside the chamber 1 there is also a suction pipe from a vacuum cleaner (not shown), which frees the chamber from vapors and ozone released during operation. After that, the empty carriage 7 through the chamber 1 is returned to the loading compartment for re-loading. Processing of other items (pillows, blankets, etc.) is carried out similarly. If necessary, processed items, such as pillows, can be covered with a metal mesh on top.

 The work of the proposed disinfection device according to the second embodiment is exemplified by the processing of mattresses in the following sequence.

In the chamber 20, with the help of electric heaters 9 and ultraviolet lamps 8, the air is heated to 80 ^o C. Mattresses 25 are placed on the loading transport 23 and the control unit 19 is turned on in automatic mode. In this case, all three conveyors 21, 23, 24 are put into operation at a speed that ensures the required exposure of the treatment (for example, 15 minutes). Humidifiers 14 and 15 and a vacuum cleaner are also included.

Matrices 25 gradually enter the chamber 20. Immediately before entering the chamber, they are moistened. In chamber 1, the matrices are exposed to elevated temperature and ultraviolet radiation (with a specific radiation energy of 4.5 5 μV / s per 1 cm ² surface), which provides heating directly on the surface of the mattress to 100 ^o C. In this case, water droplets contained on the surface of the workpiece as a result of its moistening, they turn into steam, which immediately penetrates into the workpiece, and then disappears as a result of heating. Thus, the processed items become dry.

 After processing in the chamber 20, the mattresses gradually move to the discharge conveyor, where they are automatically unloaded.

 In the proposed device, the process of loading processed objects can also be automated, which can be carried out by various known methods that are not considered in this application.

 Processing of other items (pillows, blankets, etc.) is carried out similarly.

 The proposed device according to the second embodiment is described in continuous operation. However, it can also operate in discontinuous mode when the workpiece is fully loaded into the camera and held there for the required exposure time. At this time, all three containers stop and the chamber is completely sealed.

 Comparing these processing modes, it should be noted that during intermittent operation, the width of the chamber should be significantly larger (corresponding to the width of the blanket) than during continuous operation. Naturally, the larger the chamber, the more energy is needed to heat the air in it to the required temperature. From this point of view, continuous mode is preferable to intermittent mode.

 In the case of a disinfection device with a single conveyor, the device operates in the same way as described above.

 In conclusion, the description of the proposed options for the disinfection device should be noted that the specificity of their processing requires that the items to be processed (including blankets) are located in the chamber only when unfolded. Therefore, the length and width of the carriage (according to the first embodiment of the device) and conveyors (according to the second embodiment) must have dimensions that correspond to the standard dimensions of the blanket (as the largest item to be processed). Moreover, in the case of processing objects with smaller sizes (including mattresses), they can be located on the carriage (conveyor) in several parallel rows.

 Preliminary experiments showed that with the above treatment regimes, 100% disinfection is achieved with 90% death of the vegetative forms of the main groups of microorganisms, which fully meets the requirements for preventive treatment of bedding.

 As for the optimal exposure, it can be clarified during the trial operation of the installation of a specific design using biological tests.

 Disinfecting devices of the proposed design can be widely used in the prophylactic treatment of bedding for passenger railroad cars, as well as in sanatoriums, rest homes, passenger ships, etc. In this case, the first option can be used with small volumes of processing, and the second with very large volumes of processing (from 100 thousand sets per year and above).

Claims (9)

 1. A disinfection device containing an inlet and outlet chamber, inside which electric heaters are placed, as well as elements of water supply and accommodation of processed items, characterized in that a horizontal shuttle carriage is additionally inserted into it to accommodate processed items with fixation in three positions: in front of the camera , in the chamber and after the chamber, while in the chamber there are installed ultraviolet lamps located above and below the carriage, and humidifiers, also installed on both sides n in relation to the carriage.  2. The device according to claim 1, characterized in that the humidifiers are made in the form of perforated tubes located in front of the chamber entrance.  3. The device according to p. 1, characterized in that at the outlet of the camera on both sides of the carriage there are two slotted intakes of the vacuum cleaner.  4. A disinfection device containing an inlet and outlet chamber, inside which electric heaters are placed, as well as elements of water supply and accommodation of processed items, characterized in that three independently working conveyors are introduced into it: loading, intracameral and unloading, and lamps are installed in the chamber ultraviolet radiation, located above and below the intracameral conveyor, and humidifiers, also located on both sides with respect to the conveyor, while in the intracameral of the conveyor is made of mesh fabric.  5. The device according to p. 4, characterized in that the humidifiers are made in the form of perforated tubes located in front of the chamber entrance.  6. The device according to p. 4, characterized in that at the outlet of the camera on both sides of the conveyor are two slotted intake of the vacuum cleaner.  7. A disinfection device containing an inlet and outlet chamber, inside which electric heaters are placed, as well as elements of water supply and accommodation of processed items, characterized in that a single conveyor placed in the chamber, as well as in the loading and unloading compartments, is additionally introduced into it, and ultraviolet lamps located above and below the conveyor, and humidifiers, also located on both sides with respect to the conveyor, are installed in the chamber, while the conveyor belt is made from the grid.  8. The device according to p. 7, characterized in that the humidifiers are made in the form of perforated tubes located in front of the chamber entrance.  9. The device according to p. 7, characterized in that at the outlet of the camera on both sides of the conveyor are two slotted intake of the vacuum cleaner.

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