RU200604U1 - Respiratory protection filtering agent - Google Patents

Abstract

The utility model relates to personal protective equipment for the respiratory organs of a person from harmful substances. The technical result consists in improved purification of the incoming air by the declared filtering means of personal respiratory protection by reducing moisture (and, as a result, preventing the growth of bacteria) in the outgoing air by using all radiators and the Peltier element, as well as due to additional cleaning with an electrostatic filter, an ultraviolet irradiator, which are connected to the control unit. The result is achieved by the declared filtering personal respiratory protection, including a coarse filter, and the coarse filter is built into a hollow housing with an inlet and an outlet hole, and in the hollow body from the side of the inlet there are built-in coarse pre-filter, electrostatic filter, radiator for cooling air and radiator for heating air, which are mounted in series are in the area of action of an ultraviolet irradiator fixed in a hollow housing, and the cooling air radiator is connected through the Peltier element to the Peltier element cooling radiator, which is connected to the air heating radiator by means of a heat-conducting connecting element, while the Peltier element, electrostatic filter and ultraviolet irradiator are connected to the control unit, and the radiator for cooling the Peltier element is fixed on the outside of the case.

Description

The technical field to which the utility model belongs

The utility model refers to the means of individual protection of the human respiratory system from harmful substances.

State of the art

Known filtering means for personal respiratory protection (RU 2297259 C2, published 20.04.2007), including a filtering half mask made in the form of a circle, the edges of which are bent and form an obturator, spacer, elastic cord, plate for fixing the respirator on the nose and tape, moreover, it is additionally equipped with a multilayer filter made of nonwoven material, located on the outer surface of the half mask, to which it is connected by a thermal seam, along the edges of each layer of the additional filter, perforation and a slot are made, while the layers of additional filters are located on the outer surface of the half mask in such a way that their slots are offset relative to each other.

The disadvantage of this object is the use of only one multilayer filter, due to which high humidity is formed in the process of using the filtering agent, and insufficient air purification by the specified filtering agent analogous.

Disclosure of a utility model

The technical result consists in improved purification of the incoming air by the declared filtering means of personal respiratory protection by lowering the humidity (and, as a consequence, preventing the growth of bacteria) in the outgoing air by using all radiators and the Peltier element, as well as through additional cleaning with an electrostatic filter, ultraviolet irradiator, which are connected to the control unit.

The result is achieved by the declared filtering means of personal respiratory protection, including a coarse filter, and the coarse filter is built into a hollow housing with an inlet and an outlet, and a coarse pre-filter, an electrostatic filter, a radiator are integrated into the hollow body from the inlet side. cooling air and a radiator heating air that are located in the area of action of an ultraviolet irradiator fixed in a hollow housing, moreover, the cooling air radiator is connected through the Peltier element to the cooling radiator of the Peltier element, which is connected to the radiator that heats the air through a connecting heat-conducting element, while the Peltier element is electrostatic the filter and the ultraviolet irradiator are connected to the control unit, and the radiator for cooling the Peltier element is attached to the outside of the housing.

According to the utility model, the Peltier element cooling radiator is provided with a fixed cooling fan, which is connected to the control unit and is configured for forced cooling of the Peltier element cooling radiator.

According to the utility model, an air pumping fan is fixed in the hollow body, which is connected to the control unit and is configured to forcibly pump air through the entire hollow body.

As a consequence of the main result, an additional technical result is achieved, which consists in reducing the humidity in the air leaving the body of the claimed device, due to the use of a cooling air radiator, a heating air radiator, a Peltier element and a Peltier element cooling radiator in the body of the declared filtering means of personal respiratory protection.

Brief Description of Drawings

The essence of the utility model is illustrated by the figure, which shows a diagram of an embodiment of the claimed filtering means of personal respiratory protection.

Implementation of the utility model

The figure shows a filtering means for personal respiratory protection, including a hollow body 1 with an inlet and an outlet, and in the hollow body 1 from the side of the inlet there are built-in coarse pre-filter 2, an electrostatic filter 3, a radiator, cooling air 5, and a radiator that heats the air 6, which are located in the area of action of an ultraviolet irradiator 8 fixed in the hollow housing, and the radiator cooling air 5 is connected through the Peltier element 7 to the radiator for cooling the Peltier element 15, which is connected to the radiator that heats the air 6 by means of a connecting heat-conducting element, when In this case, the Peltier element 7, the electrostatic filter 3 and the ultraviolet irradiator 8 are connected to the control unit 14, and the radiator for cooling the Peltier element 15 is fixed on the outside of the housing.

In a particular embodiment of the claimed filtering means of personal respiratory protection, the coarse pre-filter 2 can be made of fabric or non-woven material. In addition, the preliminary coarse filter 2 can be made as a replaceable, disposable filter element for primary air purification.

The electrostatic filter 3 can be powered from the control unit 14, it can also be made removable and, if necessary, removed from the housing 1 of the claimed filtering means of personal respiratory protection for flushing.

In a particular embodiment, the radiator for cooling the Peltier element 15 can be made with a fixed cooling fan 9, which is connected to the control unit 14 and is configured for forced cooling of the radiator for cooling the Peltier element 15.

In another particular embodiment, an air pumping fan 4 is fixed in the hollow body, which is connected to the control unit 14 and is configured to forcibly pump air through the entire hollow body 1.

The principle of operation of the declared filtering means of personal respiratory protection is as follows.

The filtering means of personal protection of respiratory organs is connected by its outlet of the housing (or through the transition pipe) to the inlet of the protective mask. A mask with a filtering personal respiratory protection device is fixed (for example, by means of elastic bands, belts, etc., attached to the mask) on the user's face. Then, when the user inhales, the air first passes through a coarse pre-filter 2, which cleans the air from large particles, then the air is purified through an electrostatic filter 3 in which microparticles (smoke particles, plant pollen, bacteria, viruses) are retained. Then the air passes through the radiator cooling air 5 (while excess moisture condenses on the surface of the radiator cooling air 5) and the radiator heating air 6 restores an acceptable temperature for breathing air while being additionally cleaned with an ultraviolet irradiator 8. Then the purified air goes out through the outlet of the case into the mask ... When the user exhales, air may escape from the exhalation valve built into the mask.

It should be noted that in a particular embodiment, the following can be built into the housing 1 at the outlet (near the outlet of the housing 1): temperature sensor 10, humidity sensor 11, air flow sensor 12, ozone concentration sensor 13. All these sensors are connected to the control unit 14 , which can thus be configured to control the level of humidity, temperature, ozone concentration and the flow rate of the outgoing air. That will allow keeping the specified parameters at a certain required level, by means of a computer program in the control unit and by monitoring the parameters of the outgoing air by the control unit through the specified sensors. Thus, if the parameters (received by the control unit from the sensors) of the outlet air need to be changed, the control unit will automatically begin to adjust the air parameters, at the outlet by controlling the operation of the Peltier element, an electrostatic filter and an ultraviolet irradiator (as well as in private embodiments by controlling the unit also controls the air pumping fan 4 and the cooling fan 9).

Modern technologies and equipment allow realizing a real utility model in large-scale production. The plant or enterprise has all the necessary equipment for the production of the declared filtering personal respiratory protection.

The declared filtering personal respiratory protection device is made in the form of a single structure, namely, the individual components (or constituent parts) of the declared filtering personal respiratory protection device are interconnected at the same manufacturer (or manufacturing plant) by assembly operations, such as screwing, articulation, riveting, welding, brazing, crimping, flaring, gluing, stitching, etc.

Claims (3)

1. Filtering means for personal protection of respiratory organs, including a coarse filter, characterized in that the coarse filter is built into a hollow body with an inlet and an outlet, and a coarse pre-filter and an electrostatic filter are integrated into the hollow body from the inlet side , a radiator that cools the air and a radiator that heats the air, which are located in the area of action of an ultraviolet irradiator fixed in the hollow housing, and the radiator that cools the air is connected through the Peltier element to the radiator for cooling the Peltier element, which is connected to the radiator that heats the air through a connecting a heat-conducting element, while the Peltier element, electrostatic filter and UV irradiator are connected to the control unit, and the cooling radiator of the Peltier element is fixed on the outside of the case, in addition, a temperature sensor is built into the case at the outlet, the sensor is wet STI, air flow sensor, ozone concentration sensor, which are connected to the control unit, which is configured to control the level of humidity, temperature, ozone concentration and the intensity of the outgoing air flow. 2. The filtering means for personal respiratory protection according to claim 1, characterized in that the cooling radiator of the Peltier element is made with a fixed cooling fan, which is connected to the control unit, and is made with the possibility of forced cooling of the radiator for cooling the Peltier element. 3. The filtering means of personal protection of the respiratory organs according to claim 1, characterized in that an air pumping fan is fixed in the hollow body, which is connected to the control unit and is made with the possibility of forced air pumping through the entire hollow body.

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