DE102016003649B4 - Respiratory protective device and method for operating a respiratory protective device - Google Patents

Abstract

Breathing apparatus (10) with a housing (12), the housing (12) having a face section (14), the housing (12) having an outlet opening (20) functioning as an air outlet on its upper side, at least in the face section (14), wherein Ambient air flowing in through an inlet opening can be sucked into the interior of the housing (12) via an air path in the housing (12) by means of a fan (24) which can be driven by a drive unit, and can be blown out through the outlet opening (20), the housing (12) being a filter (28), wherein the outlet opening (20) has means for shaping the air flow that can be blown out through the outlet opening (20) so that a shield-shaped air curtain is created as a barrier (30) in front of the face of the wearer of the respiratory protective device (10), at least one Air supply opening (22) is provided and wherein the air supply opening (22) is designed such that, during operation, at least one of the air supply openings (22) exiting air flow in an area between an air curtain, which is generated by the air flow emerging from the outlet opening (20) as a barrier (30) in front of the face of the wearer of the respiratory protective device (10), and a face of the wearer, thereby characterized in that the housing (12) is annular, has a neck section (16) opposite the face section (14) and two side sections (18) adjoining the face section (14) and the neck section (16) and completing the housing (12) in an annular manner and wearing the respirator (10) around a person's neck allows the fan (24) and its drive unit to be located inside the housing (12) and the filter (28) inside the housing (12) and upstream of the fan (24) is arranged.

Description

The invention relates to a breathing apparatus and a method for operating a breathing apparatus.

Respiratory protection devices and systems as well as associated or individually usable respiratory protection masks are known per se in the most varied of forms. A respirator is used to protect the wearer from respiratory toxins, suspended matter and the like. They are divided into full face masks and half and quarter masks. They are used, for example, in rescue services (fire brigade, technical relief organization), in fire detection and at workplaces where respiratory toxins or respirable substances (chemical substances, microorganisms, dusts, etc.) can occur.

Respiratory protection masks can be used in conjunction with compressed air breathing systems independently of the ambient air or with respiratory protection filters depending on the ambient air. In the case of a circulating air-dependent version, a respiratory protection filter can either be attached directly to the mask or connected to it via a hose. Full masks comprise a mask body made of silicone or rubber, one or two viewing panes in a sealing frame, an exhalation valve, if necessary a strap, a harness in the form of a so-called head spider, an inner mask or air ducts, a speech diaphragm and a connector for a regulator (regulator) or Breathing filter. Half masks enclose the wearer's mouth and nose. The eye area is left out so that it cannot be used without further ado in an ambient atmosphere with pollutants which can cause irritation or damage to the eyes. In contrast to the full face mask, a sealing line runs to the wearer's face over the nose area. The basic structure of a half mask corresponds to that of the full mask. However, the half mask has no viewing window and no inner mask.

Particle-filtering half masks for single use usually consist entirely of a filter material.

The problem with respiratory masks, such as those worn by the fire brigade or the like, is that a suitable sealing contour between the face of the mask wearer and the mask body cannot be optimally achieved without different mask sizes and mask variants. In addition, putting on and taking off is often complicated and time-consuming, especially if a strap in the form of a so-called head spider is provided for wearing the respirator. Furthermore, the use of a known respiratory protection mask can lead to unpleasant and sometimes also view-impairing perspiration inside the mask. Finally, the breathing resistance resulting from a respirator when breathing in makes work more difficult. This also applies in particular to so-called half masks.

Improved comfort when putting on a breathing apparatus should be achieved with the WO 2011/006206 A1 described technical solution can be achieved. This document describes a ring-shaped breathing apparatus worn around the neck into which a mask section is integrated, with which the mouth and nose of the wearer are covered so that breathing air is supplied to the wearer via the mask section. In order to put on the described breathing apparatus, a carrying ring must be adjusted to a width that allows it to be placed over the head. The mask section must then be placed over the wearer's mouth and nose and held there. Finally, the width of the ring has to be adapted to a width that is intended to ensure the fixation of the mask section over the wearer's mouth and nose. Thus, compared to conventional respiratory masks, the described device offers the advantage of being somewhat easier to put on, but the correct connection of the mask section to the facial contour of the wearer continues to be a problem.

In WO 2015/140776 A1 describes a respiratory protective device which has the shape of a horseshoe and which a wearer can wear around his neck. Air is sucked in in the neck area, cleaned, led to the area of the upper sternum and blown out at an angle upwards towards the wearer's nose.

In DE 10 2014 003 866 A1 a supply device 1 for purified breathing air is described which comprises a tubular, bent supply part 8 which a user 9 wears in front of the collarbone in a manner similar to a necklace. The feed part 8 is connected via a feed hose 7 to a blower unit 6 which the user 9 can wear on the neck. Outflow openings 15 are arranged on a central section 46 of the feed part 8, and a further outflow opening each on two lateral sections 47 14th . An extension closes in an upwardly pointing elevation 21 22nd with another discharge opening 18th at. At the transition from the elevation 21 to the extension 22nd are two slot-shaped outflow openings 16 arranged, which generate a supply air flow 3.

The invention is based on the object based on DE 10 2014 003 866 A1 indicate a respiratory protective device in which the Air curtain forms independently of the respective facial contour of the wearer.

This object is achieved according to the invention by means of a breathing apparatus with the features of independent device claim 1 and by means of a method for operating / using such a breathing apparatus with the features of method claim 9.

For this purpose, in a breathing apparatus with an annular housing which allows the breathing apparatus to be worn around the neck of a person (wearer), the housing has a face section, a neck section opposite the face section and two adjoining the face section and the neck section, and the housing is ring-shaped Completing side sections, it is provided that the housing has at least one outlet opening acting as an air outlet on its side acting as the upper side in the worn state, at least in the face section, that ambient air is drawn in via an air path in the housing by means of a fan that can be driven by a drive unit and is driven when the breathing apparatus is in operation outside the housing through an inlet opening into the interior of the housing and sucked in during operation of the respiratory protective device and at least blown out through the outlet opening and blown out during operation of the respiratory protective device n and that the housing has a filter in the airway. In a preferred manner, the at least one outlet opening has a gap, slot and / or a through hole which has been introduced into the housing in particular in the form of a bore for connection to the airway.

According to the invention, the outlet opening has means for shaping the air flow which can be blown out through the outlet opening. This means creates a shield-shaped air curtain, specifically as a barrier in front of the face of the wearer of the breathing apparatus. According to the invention, an air supply opening is provided. This air supply opening is designed in such a way that, during operation, an air flow which emerges from the air supply opening is at least temporarily directed in an area between the air curtain and a face of the wearer. This air curtain is created by the air flow exiting the outlet opening as a barrier in front of the face of the wearer of the respirator.

The breathing apparatus proposed here is intended and designed to implement breathing protection in the form of an air curtain in front of the wearer's face. For this purpose, the respiratory protective device in its housing has at least one outlet opening functioning as an air outlet, in particular in the form of a gap, on its side functioning as the upper side in the worn state, at least in the face section. Ambient air can be drawn in from outside the housing through an inlet opening into the interior of the housing and blown out at least through the outlet opening via an air path in the housing by means of a fan that can be driven by a drive unit. The housing has a filter in the air path of the ambient air sucked in during operation, for example at the point where the sucked air enters the housing or at the latest before it exits through the outlet opening. The air that can be blown out through the outlet opening is accordingly filtered and thus freed from pollutants or at least largely freed from ambient air. During operation of the breathing apparatus, ambient air is sucked into the interior of the housing from outside the housing by means of the fan driven by the drive unit and, after filtering, is blown out at least through the outlet opening by means of a filter placed in the airway in the housing. The air blown out through the outlet opening forms an air curtain in the form of a shield-shaped barrier in front of the face of the wearer of the breathing apparatus, at least in front of his mouth and nose, and thus protects him against the ingress of gases or particles in the area between the air curtain on the one hand and mouth and nose Wearer's nose on the other hand.

Another advantage of the solution proposed here is that, due to the air curtain generated in front of the wearer's face when the breathing apparatus is in operation, the previous problem of obtaining a sealing contour that fits the wearer is no longer significant. Rather, the air curtain forms completely independently of the respective facial contour of the wearer in front of the wearer's face. A mask on the face is no longer necessary.

Advantageous embodiments of the invention are the subject of the subclaims. References used here point to the further development of the subject matter of the main claim through the features of the respective subclaim and are not to be understood as a waiver of the achievement of independent, objective protection for the combinations of features of the referenced subclaims. Furthermore, with regard to an interpretation of the claims in a more detailed specification of a feature in a subordinate claim, it can be assumed that such a restriction does not exist in the respective preceding claims. Finally, it should be pointed out that the respiratory protective device can also be developed in accordance with the features of the method for its use, such that the respiratory protective device has means for. Run the respective embodiment of the Process and the process steps included therein. In the same way, the method for operating the breathing apparatus can be developed in accordance with the functionality of the aspects of the breathing apparatus.

In one embodiment of the respiratory protective device, the housing has in the face section on a side facing the neck section between the at least one outlet opening and the neck of the wearer at least one air supply opening for ambient air sucked in and filtered by the fan. A volume flow through the air blown out air is lower compared to the volume flow through the outlet opening, so that a gentle air flow emerges through the air supply opening, which preferably has at least one slot and / or a hole, very particularly preferably a plurality of outlet holes. This air flow passes through the placement of the air supply opening on the side of the outlet opening facing the neck section into the area between the air curtain and the wearer's face and supplies the wearer with filtered ambient air to breathe.

In a further embodiment of the breathing apparatus, the outlet opening or the outlet opening together with air guiding means in the interior of the housing, in particular in the interior of the face portion of the housing, act as a means for shaping the air flow that can be blown out through the outlet opening, the resulting shape of the blown air curtain being in the broadest sense forms a shield-shaped barrier in front of the face of the wearer of the breathing apparatus. Since the outlet opening preferably extends as a gap along the upper side of the face section of the housing of the breathing apparatus, which is U-shaped in the broadest sense, the course of the gap determines the shape of the air curtain that is blown out. By means of air guiding means, for example air guiding surfaces or the like, optionally located in the interior of the housing, different orientations of the blown air flow can be implemented, for example, along the outlet opening, in particular along the gap. In this way, for example, there is an essentially vertically blown air flow in the middle of the face section, i.e. in front of the eyes of the wearer of the respiratory protective device, and a blown air flow inclined more towards the head of the wearer of the respiratory protective device in the area of the cheeks or in front of the vertical the ears of the wearer possible. This enables a comparatively large distance between the wearer's eyes and the air curtain, on the one hand, and an air curtain lying laterally closer to the wearer's head, on the other hand.

In yet another embodiment of the breathing apparatus, the air supply opening or the air supply opening together with air guiding means in the interior of the housing, in particular in the interior of the face section of the housing, functions as a means for directing the air flow that can be blown out through the airflow onto the face of the wearer of the breathing apparatus. In this way, the person wearing the breathing apparatus is supplied with the filtered air for breathing. The fact that the air flow is directed onto the face of the wearer due to the air exiting through the air supply opening, which preferably has a plurality of exit holes, results, for example, in protecting the eyes from the stronger air flow exiting the gap.

According to the invention it is provided that the fan, in particular the fan and its drive unit, for example an electric motor, is arranged in the interior of the housing and the filter upstream of the fan is also arranged in the interior of the housing, for example in the neck section. In such an embodiment, the housing of the respiratory protective device accommodates all elements of the respiratory protective device, so that the user only has to handle the housing. Optionally, an electrical energy source for supplying the drive unit, for example a battery or accumulator cells, can also be located inside the housing.

Placing the filter upstream of the fan has the advantage that suspended matter and the like that are sucked in with the ambient air that is sucked in do not reach the fan, thus avoiding the use of the fan that would otherwise be harmful. The neck section of the housing comes into particular consideration as the location for placing the filter. On the one hand, there is enough space here to attach the filter. On the other hand, a side surface or a side surface section of the neck section can function as an air inlet, so that the filter can be placed directly next to the air inlet. Finally, with such an arrangement, the air inlet is maximally removed from the face section and the openings there in the housing to the air outlet, namely the outlet opening and the air supply opening, so that the flow of the air blown out there is not disturbed by the suction of the ambient air. Furthermore, an air inlet through an air inlet in the area of the neck of the wearer of the respiratory protective device disturbs the wearer as little as possible.

In a further optional embodiment of the species protection device, it has at least one sensor. The sensor is located on the housing or in the airway inside the Housing. In the case of several sensors, at least one sensor can be located on the outside of the housing and at least one sensor can be located inside the housing in the airway formed there. The or each sensor senses environmental data. This includes, for example, the temperature, the humidity, but of course also the concentration of monitored pollutants. In a variant of this optional embodiment of the respiratory protective device, based on the measured ambient temperature, it influences at least the temperature of the air blown out through the air supply opening and has corresponding means for influencing the temperature of the blown air, for example one inside the respiratory protective device in the flow path of the blown air located heating resistor. In an alternative or complementary variant of this optional embodiment of the respiratory protection device, based on the measured humidity of the ambient air, it influences at least the humidity of the air blown out through the air supply opening and has corresponding means for influencing the humidity of the blown air. In yet another alternative or complementary variant of this optional embodiment of the respiratory protection device, this informs its wearer of the potential danger due to the sensed pollutant by means of an optical and / or acoustic display unit mounted in or on the housing in the event of a sensed pollutant in the ambient air. In a further alternative or complementary variant of this optional embodiment of the respiratory protection device, it signals to the wearer that the filter capacity is exhausted and / or nearing its end by means of an optical and / or acoustic display unit (ESLI = end of service life indicator) fitted in or on the housing . The display can also be designed as a continuous or essentially continuous consumption display.

An exemplary embodiment of the invention is explained in more detail below with reference to the drawing. Objects or elements that correspond to one another are provided with the same reference symbols in all figures.

The exemplary embodiment is not to be understood as a restriction of the invention. Rather, changes and modifications are possible within the scope of the present disclosure, in particular those variants and combinations that, for example, by combining or modifying individual features in connection with the features described in the general or special part of the description and contained in the claims and / or the drawing Those skilled in the art with regard to the solution of the problem can be inferred and lead to a new object through combinable features.

• 1 ein Atemschutzgerät,
• 2 das Atemschutzgerät gemäß 1 in einer Seitenansicht und
• 3 das Atemschutzgerät gemäß 1 im getragenen Zustand und mit einer sich im Betrieb in Form eines Luftschleiers vor dem Gesicht des Trägers ergebenden schützenden Barriere.

Show it:

• 1 a respirator,
• 2 the breathing apparatus according to 1 in a side view and
• 3 the breathing apparatus according to 1 when worn and with a protective barrier in the form of an air curtain in front of the wearer's face when in use.

The representation in 1 shows in a schematically simplified manner a three-dimensional view of an embodiment of a breathing apparatus 10 of the type proposed here. This has an annular housing 12th on. Due to the ring shape, the breathing apparatus is 10 intended to be worn around the neck by its user. Portions of the annular housing 12th are used as a facial section for differentiation and according to their intended position when worn 14th , Neck section 16 and side sections 18th designated. The two side sections 18th close on the one hand to the face section 14th and on the other hand the neck section 16 at. Overall, this results in the annular housing 12th .

When worn, the side sections rest 18th on the wearer's shoulders and the neck portion 16 in the neck of the wearer. The face section 14th is located at a distance in front of the wearer's face (see 3 ). In the face section 14th and there in a worn state to an upper side of the housing 12th and its face section 14th belonging side are a gap 20th and exit holes 22nd . In the embodiment shown, the gap is 20th delimited by two border lines which form an upwardly facing edge in the top of the face portion 14th form. The exit holes 22nd are located in the face section 14th on the neck section 16 facing side of the gap 20th .

When operating the breathing apparatus 10 is through the gap 20th and the exit holes 22nd Air blown out. That's what a blower is for 24 , a drive unit for the fan and means for supplying energy to the drive unit are provided. The representation in 2 shows in this respect a schematically simplified side view of the breathing apparatus 10 with the blower 24 inside the case 12th namely in the interior of the neck section 16 . The blower 24 is shown as a unit with its drive unit and means for supplying energy to the drive unit, for example battery cells, although an embodiment in which such a unit can of course also be considered as an alternative is not given and for example the battery cells outside the housing 12th from the wearer of the breathing apparatus 10 be carried. By means of the fan 24 ambient air is sucked in and through the gap 20th ( 1 , 2 ) and the exit holes 22nd ( 1 ) blown out. In the embodiment shown, it is provided that the intake of the ambient air drawn in is in the area of the neck section 16 he follows. In the representation in 1 is in this respect already a substantially along the entire outer contour of the neck section 16 extending air inlet 26th shown. Behind the air intake 26th and thus in the airway of the ambient air drawn in from the air inlet 26th up to the gap 20th and the exit holes 22nd is located in the neck section 16 inside the case 12th a filter 28 . Through the gap 20th and the exit holes 22nd this will blow out filtered air.

The representation in 3 shows in a schematically simplified manner that the through the gap 20th blown air in front of the face of the person wearing the respirator 10 an air curtain directed substantially vertically upwards 30th forms. According to the course of the gap 20 along the face section 14th the air curtain protects 30th the wearer's face is shield-like (shield-shaped barrier 30th ) or is enclosed by the air curtain 30th the wearer's face half-shell-like (half-shell-shaped barrier 30th ). The through the exit holes 22nd blown air flows in the direction of the mouth and nose of the wearer, so that this is supplied in this way with filtered ambient air to breathe.

The volume flow through the gap 20th is significantly larger than the volume flow through the outlet holes 22nd . This ensures that the air curtain 30th can develop its protective function and that through the exit holes 22nd blown air from the wearer of the respirator 10 is not perceived as uncomfortable. To ensure such a distribution of the volume flows, it is provided, for example, that the face section 14th inside is divided into at least two volumes, a first volume on one side to the gap 20th and a second volume on one side of the exit holes 22nd is open. On an opposite side, the two volumes are each in the direction of the two side parts 18th or one of the side panels 18th open. A width of these openings is dimensioned so that a large volume flow through the gap 20th and a comparatively lower volume flow through the outlet holes 22nd results. The or each inlet opening into the gap 20th The first volume that is open towards the end is accordingly significantly larger than the or each inlet opening into the one to the outlet holes 22nd open second volume. The resulting volume flow through the gap is determined by the suitable choice of the size of these inlet openings 20th and the resulting volume flow through the outlet holes 22nd specifiable. Optionally, the width of at least one of these inlet openings can be changed, for example by means of an outside on the face section 14th of the housing 12th accessible slide (not shown), so that in this way the wearer of the breathing apparatus 10 can influence the distribution of the volume flows.

On or in the breathing apparatus 10 are optionally a sensor 40 and an optical and / or acoustic display unit 42 appropriate. The sensor 40 is intended to detect at least one pollutant in the ambient air. In the case of one by means of the sensor 40 detected pollutant is automatically the display unit 42 activated to the wearer of the respirator 10 to draw attention to the detected pollutant.

Individual essential aspects of the description presented here can be briefly summarized as follows: A ring-shaped breathing apparatus that can be worn around the neck is specified 10 and a method for operating a breathing apparatus 10 . A housing section of the respirator 10 is located in front of the wearer's face when worn as intended and is accordingly called a face section 14th designated. At least in this part of the face 14th has the housing 12th of the respirator 10 has a gap acting as an air outlet on its top 20th on. Via an airway in the housing 12th is by means of a fan that can be driven by a drive unit 24 Ambient air into the interior of the housing 12th suckable and through the gap 20th blown out. To filter the blown air is located in the housing 12th and a filter in the airway of the sucked in air 28 . The one through the gap 20th blown air forms an air curtain 30th in front of the wearer's face and protects it from particles and gases from the environment. A mask on the face is no longer necessary.

List of reference symbols

10

Respirator

12

casing

14th

Face section

16

Neck section

18th

Side section

20th

Outlet opening

22nd

Air supply opening

24

fan

26th

Air inlet

28

filter

30th

Air curtain / barrier

40

sensor

42

Display unit

Claims (11)

Breathing apparatus (10) with a housing (12), the housing (12) having a face section (14), the housing (12) having an outlet opening (20) functioning as an air outlet on its upper side, at least in the face section (14), wherein Ambient air flowing in through an inlet opening can be sucked into the interior of the housing (12) via an air path in the housing (12) by means of a fan (24) which can be driven by a drive unit, and can be blown out through the outlet opening (20), the housing (12) being a filter (28), wherein the outlet opening (20) has means for shaping the air flow that can be blown out through the outlet opening (20) so that a shield-shaped air curtain is created as a barrier (30) in front of the face of the wearer of the respiratory protective device (10), at least one Air supply opening (22) is provided and wherein the air supply opening (22) is designed in such a way that during operation at least one of the air supply openings opening (22) exiting air flow in a region between an air curtain, which is generated by the air flow emerging from the outlet opening (20) as a barrier (30) in front of the face of the wearer of the breathing apparatus (10), and a face of the wearer, characterized in that the housing (12) is annular, a neck section (16) opposite the face section (14) and two side sections (18) adjoining the face section (14) and the neck section (16) and completing the housing (12) in a ring shape ) and wearing the respirator (10) around the neck of a person allows the fan (24) and its drive unit to be arranged inside the housing (12) and that the filter (28) inside the housing (12) and is arranged upstream of the fan (24). Breathing apparatus (10) Claim 1 wherein the outlet opening (20) is arranged in the face section (14) on a side of the housing (12) facing the neck section (16). Breathing apparatus (10) Claim 1 wherein the outlet opening (20) has at least one through hole or a bore that is fluidically connected to the airway. Breathing apparatus (10) Claim 1 wherein the outlet opening (20) has at least one gap fluidically connected to the airway. Breathing apparatus (10) according to one of the Claims 1 to 4th wherein the air supply opening (22) is arranged on a side of the outlet opening (20) facing the person's neck. Respiratory protection device (10) according to one of the preceding claims, wherein the fan (24) is arranged in the interior of the housing (12) and the filter (28) upstream of the fan (12) is also arranged in the interior of the housing (12). Breathing apparatus (10) according to one of the preceding claims, wherein the filter (28) is arranged in the neck section (16) of the housing (12). Breathing apparatus (10) according to one of the preceding claims, with at least one sensor (40) on the housing (12) or in the airway inside the housing (12) for sensing at least one pollutant, in the case of a pollutant being sensed by means of an in or on the housing (12) attached optical and / or acoustic display unit (42) the wearer of the respiratory protective device (10) the sensing of the pollutant can be conveyed. A method for operating a respiratory protective device (10) according to one of the preceding claims, wherein ambient air is sucked into the interior of the housing (12) by means of the fan (24) driven by the drive unit and, after filtering, by means of a filter placed in the airway in the housing (12) (28) is blown out through the outlet opening (20). Procedure according to Claim 9 wherein the outlet opening (20) is designed such that a shield-shaped air curtain is formed as a barrier (30) in front of the face of the wearer of the respiratory protective device (10) by the air flow which is blown out through the outlet opening (20). Procedure according to Claim 9 or 10 At least one air supply opening (22) for ambient air sucked in by means of the fan (24) being arranged in the face section (14) and on a side of the outlet opening (20) facing the wearer, through which an air flow is at least temporarily on the face of the wearer of the breathing apparatus (10) is directed.

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