FR3137304A3 - Silent block with integrated filter, particularly for medical ventilators - Google Patents

Abstract

Title of the invention Silent block with integrated filter, in particular for a medical ventilator The invention relates to a silent block (1) with an integrated filter, in particular for a medical ventilator or another device (30) sucking in ambient air comprising: a body of block (10) comprising: an air inlet port (11) and a purified air outlet port (12), an air distribution chamber (13), a filter housing (14) for receiving a removable air filter (20), filter fixing means (16), and a soundproofing chamber (15) in fluid communication with the purified air outlet (12). The air distribution chamber (13), the filter housing (14) and the soundproofing chamber (15) are arranged in series. The block body (10) comprises connection means (17) to ensure fluid connection of the block (1) to the air inlet of the internal air circuit of the device (30), such as the medical ventilator , to provide it with purified air. Abstract figure: Fig. 1

Description

Silent block with integrated filter, particularly for medical ventilators

The invention relates to a silent block with an integrated filter which can be removably attached to an "air vacuum cleaner" device to reduce noise pollution, i.e. noise, generated by the suction of ambient air by the "vacuum cleaner" device. air" and furthermore to filter the sucked air, in particular a medical ventilator type device or any other device equipped with an internal device used to suck atmospheric air.

In the medical field, certain respiratory assistance devices, commonly called medical ventilators, are equipped with an internal device used to suck atmospheric air, interchangeably called a turbine, compressor or (micro-) blower. However, such air suction causes two known problems.

The first is linked to the noise pollution caused by this suction which can reach 57 dB(A) or more. It is easy to understand that when the device must be used in a “silent” environment, the noise generated by the suction of air is not acceptable and must be limited as much as possible so as not to disturb people nearby, such as a patient in a hospital room or at home, or the patient's spouse who may be at their side, particularly during the night.

The second problem is linked to the purity of atmospheric air which can be contaminated by non-negligible quantities of atmospheric impurities, such as dust, pollen, microorganisms or the like.

The aspirated air must therefore be freed from the impurities it contains in order to avoid contaminating the internal gas circuits of the medical ventilator and especially then being sent to the lungs of the patient who is ventilated with air or a air/oxygen mixture distributed by the medical ventilator. This air purification is generally done by means of a particle filter, for example a high efficiency HEPA ( High Efficiency Particulate Air ) type filter or other, which is arranged in the fan on the air path connecting the air inlet from the fan to the turbine inlet.

Thus, EP-A-3881884 proposes to arrange a cartridge housing, on the side of the air inlet of the fan, and to insert there a removable filter cartridge used to purify both the air going towards the turbine motorized and also the air used to cool the electronic components of the medical ventilator. However, this solution is not ideal because it requires the arrangement of the cartridge housing and is therefore not applicable to existing fans. In addition, it does not solve the problem linked to the noise generated by the suction of air, that is to say noise pollution.

The invention is part of this context and aims to solve these two problems so as to provide purified air, that is to say freed from its ambient impurities, by limiting the noise pollution generated during suction. atmospheric air by a medical ventilator or any other device sucking ambient air, including outside the medical field.

In addition, the solution of the invention must be able to be used with existing devices without requiring particular “heavy” arrangements, such as specific housing, as described in EP-A-3881884.

• un orifice d’entrée d’air atmosphérique et un orifice de sortie d’air purifié,
• une chambre de répartition d’air en communication fluidique avec l’orifice d’entrée d’air atmosphérique,
• un logement à filtre en communication fluidique avec la chambre de répartition d’air, configuré pour recevoir un filtre à air agencé, de manière amovible, dans le logement à filtre de sorte que l’air provenant de la chambre de répartition d’air traverse ledit filtre à air,
• des moyens de fixation de filtre configurés pour assurer un maintien du filtre à air amovible dans le logement à filtre, et
• une chambre d’insonorisation en communication fluidique avec le logement à filtre et avec l’orifice de sortie d’air purifié,

The solution of the invention relates to a silent block with an integrated filter for a device sucking in ambient air, comprising a block body comprising:

• an atmospheric air inlet port and a purified air outlet port,
• an air distribution chamber in fluid communication with the atmospheric air inlet port,
• a filter housing in fluid communication with the air distribution chamber, configured to receive an air filter removably arranged in the filter housing such that air from the air distribution chamber passes through said air filter,
• filter fixing means configured to ensure retention of the removable air filter in the filter housing, and
• a soundproofing chamber in fluid communication with the filter housing and with the purified air outlet port,

• la chambre de répartition d’air, le logement à filtre et la chambre d’insonorisation sont agencés en série entre l’orifice d’entrée d’air atmosphérique et l’orifice de sortie d’air purifié de manière à ce que de l’air entrant par ledit orifice d’entrée d’air atmosphérique circule successivement au travers de la chambre de répartition d’air, du filtre à air agencé dans le logement à filtre et de la chambre d’insonorisation, avant de ressortir par ledit orifice de sortie d’air purifié, et

• le corps de bloc comprend en outre des moyens de raccordement configurés pour assurer un raccordement fluidique du bloc à une entrée d’air d’un circuit d’air interne d’un appareil utilisateur d’air pour fournir de l’air purifié provenant l’orifice de sortie d’air purifié à l’entrée d’air du circuit d’air interne de l’appareil utilisateur d’air, tel un ventilateur médical équipé d’une turbine motorisée qui aspire de l’air ambiant durant son fonctionnement.

and in which:

• the air distribution chamber, the filter housing and the soundproofing chamber are arranged in series between the atmospheric air inlet port and the purified air outlet port so that The air entering through said atmospheric air inlet orifice circulates successively through the air distribution chamber, the air filter arranged in the filter housing and the soundproofing chamber, before exiting through said orifice purified air outlet, and

• the block body further comprises connection means configured to ensure fluid connection of the block to an air inlet of an internal air circuit of an air user device to supply purified air coming from the purified air outlet orifice at the air inlet of the internal air circuit of the air user device, such as a medical ventilator equipped with a motorized turbine which sucks in ambient air during its operation .

• l’orifice d’entrée d’air atmosphérique est configuré pour permettre une entrée d’air atmosphérique dans le corps de bloc.
• l’orifice de sortie d’air purifié est configuré pour permettre la sortie de l’air purifié du corps de bloc, c'est-à-dire de l’air débarrassé d’au moins une partie de ses impuretés atmosphériques, e.g. poussières, microorganismes, pollens.... ou autres.
• l’orifice d’entrée d’air atmosphérique est porté par un conduit d’entrée d’air du corps de bloc.
• l’orifice de sortie d’air purifié est porté par un conduit de sortie d’air du corps de bloc.
• les moyens de raccordement comprennent une portion aval du conduit de sortie d’air, de forme tronconique terminée par l’orifice de sortie d’air purifié.
• les moyens de fixation de filtre comprennent au moins un élément de maintien venant coopérer avec le filtre à air pour le maintenir en position dans le logement à filtre, de préférence plusieurs éléments de maintien.
• le logement à filtre comprend au moins une structure de fond sur laquelle vient reposer le filtre à air.
• la structure de fond comprend une paroi de fond.
• ledit au moins un élément de maintien comprend un bras venant appuyer sur le filtre à air pour le repousser vers ladite au moins une structure de fond.
• de préférence deux élément de maintien forment des bras agencés en parallèle.
• la chambre de répartition d’air communique fluidiquement avec le logement à filtre via au moins une ouverture agencée dans la structure de fond, de préférence dans la paroi de fond.
• la paroi de fond est ajourée, c'est-à-dire percée d’un ou plusieurs ouvertures permettant la circulation de l’air.
• la chambre d’insonorisation comprend des structures insonorisantes, c'est-à-dire d’atténuation de bruits,
• les structures insonorisantes comprennent des chicanes.
• le filtre à air comprend des parois périphériques définissant un compartiment interne, au moins une ouverture d’entrée d’air et au moins une ouverture de sortie d’air en communication fluidique avec le compartiment interne, et au moins un élément de filtration agencé dans le compartiment interne.
• le filtre à air comprend en outre un fond comprenant au moins une ouverture d’entrée d’air, en particulier un ou plusieurs orifices de passage d’air, typiquement une paroi de fond ajourée.
• ledit au moins un élément de filtration comprend un (ou des) filtre ayant une porosité contrôlée pour éliminer les impuretés atmosphériques.
• ledit au moins un élément de filtration comprend un (ou des) filtre de type HEPA.
• le corps de bloc est en matériau polymère.
• les parois périphériques définissant le compartiment ou volume interne du filtre à air forment une structure parallélépipédique carrée ou rectangle.
• le filtre à air forme une cassette parallélépipédique amovible.
• les parois périphériques comprennent des parois latérales, typiquement 4 parois latérales, et une paroi de dessus ou plafond.
• les parois périphériques du filtre à air sont en matériau polymère.
• le filtre à air peut être inséré par translation au sein du logement à filtre.
• le filtre à air est agencé de manière amovible dans le logement à filtre de manière à pouvoir en être extrait lorsqu’il est saturé, c'est-à-dire usagé, et être remplacé par un filtre à air neuf.
• ladite au moins une ouverture d’entrée d’air du filtre à air est en communication fluidique avec la chambre de répartition d’air via ladite au moins une ouverture agencée dans la structure de fond, de préférence dans la paroi de fond, du logement à filtre.
• la structure de fond, de préférence la paroi de fond, du logement à filtre forme au moins une partie de la paroi de plafond de la chambre de répartition d’air, c'est-à-dire que la structure de fond forme une paroi séparant ou délimitant le logement à filtre de la chambre de répartition d’air.
• les moyens de fixation de filtre comprennent en outre des expansions ou ailes latérales maintenant latéralement le filtre à air pour le maintenir en position dans le logement à filtre, c'est-à-dire coopérant avec deux côtés opposés du filtre à air.

Depending on the embodiment considered, the silent block with integrated filter of the invention may comprise one or more of the following characteristics:

• the atmospheric air inlet port is configured to allow atmospheric air to enter the block body.
• the purified air outlet orifice is configured to allow the outlet of purified air from the block body, that is to say air cleared of at least part of its atmospheric impurities, eg dust , microorganisms, pollens.... or others.
• the atmospheric air inlet port is carried by an air inlet duct of the block body.
• the purified air outlet port is carried by an air outlet duct of the block body.
• the connection means comprise a downstream portion of the air outlet duct, of frustoconical shape ending in the purified air outlet orifice.
• the filter fixing means comprise at least one holding element which cooperates with the air filter to hold it in position in the filter housing, preferably several holding elements.
• the filter housing comprises at least one bottom structure on which the air filter rests.
• the bottom structure includes a bottom wall.
• said at least one holding element comprises an arm pressing on the air filter to push it towards said at least one bottom structure.
• preferably two holding elements form arms arranged in parallel.
• the air distribution chamber communicates fluidly with the filter housing via at least one opening arranged in the bottom structure, preferably in the bottom wall.
• the back wall is perforated, that is to say pierced with one or more openings allowing air circulation.
• the soundproofing chamber includes sound-absorbing structures, that is to say noise attenuation,
• sound-absorbing structures include baffles.
• the air filter comprises peripheral walls defining an internal compartment, at least one air inlet opening and at least one air outlet opening in fluid communication with the internal compartment, and at least one filtration element arranged in the internal compartment.
• the air filter further comprises a bottom comprising at least one air inlet opening, in particular one or more air passage orifices, typically a perforated bottom wall.
• said at least one filtration element comprises one (or more) filters having controlled porosity to eliminate atmospheric impurities.
• said at least one filtration element comprises one (or more) HEPA type filters.
• the block body is made of polymer material.
• the peripheral walls defining the compartment or internal volume of the air filter form a square or rectangular parallelepiped structure.
• the air filter forms a removable parallelepiped cassette.
• the peripheral walls include side walls, typically 4 side walls, and a top wall or ceiling.
• the peripheral walls of the air filter are made of polymer material.
• the air filter can be inserted by translation within the filter housing.
• the air filter is arranged removably in the filter housing so that it can be extracted when it is saturated, that is to say used, and replaced by a new air filter.
• said at least one air inlet opening of the air filter is in fluid communication with the air distribution chamber via said at least one opening arranged in the bottom structure, preferably in the bottom wall, of the housing with filter.
• the bottom structure, preferably the bottom wall, of the filter housing forms at least part of the ceiling wall of the air distribution chamber, i.e. the bottom structure forms a wall separating or delimiting the filter housing from the air distribution chamber.
• the filter fixing means further comprise lateral expansions or wings laterally holding the air filter to hold it in position in the filter housing, that is to say cooperating with two opposite sides of the air filter.

The invention also relates to a device for sucking ambient air comprising a motorized turbine for sucking air via an air inlet of the device, characterized in that a silent block with an integrated filter according to the invention is Removably arranged in the air inlet of the device. The air inlet of the device feeding an internal circuit conveying the air to the turbine which sucks the air during its operation, that is to say during the rotations of the internal wheel of the turbine .

Preferably, the device is a medical ventilator.

The invention will now be better understood thanks to the following detailed description, given by way of illustration but not limitation, with reference to the appended figures among which:

is a schematic side view of one embodiment of a silent block with an integrated filter according to the invention,

is a sectional view of the silencer block with integrated filter of , And

schematizes the coupling of the silent block with integrated filter according to the invention to an air-sucking device, such as a medical ventilator.

is a schematic side view of an embodiment of a silent block 1 with integrated filter according to the invention intended to be connected to a device 30 sucking air during its operation, such as a medical ventilator or other, such as schematized in .

The silent block 1 with integrated filter according to the invention comprising a block body 10, for example made of polymer material.

The block body 10 comprises an atmospheric air inlet port 11 through which atmospheric air can enter an air distribution chamber 13 provided in the block body 10, and an air outlet port purified 12 by which purified air, that is to say freed from all or part of the impurities it contains (e.g. dust, microorganisms, pollen, etc.), can emerge from the block body 10 and then be supplied to the device 30 sucking air during its operation, such as a medical ventilator or the like.

The air paths in the silent block 1 of the invention and in the device 30 are shown schematically by arrows on has .

The block body 10 further comprises a filter housing 14 configured to receive an air filter 20 arranged in a removable manner, that is to say capable of being removed when in use, that is to say charged of impurities, and replaced by a new filter, for example during a maintenance operation.

The air distribution chamber 13 distributes the air to be purified to the air filter 20 which is positioned and held in the filter housing 14. The housing can form a cradle to receive the air filter 20. It can be perforated or partially opened as shown on And , or, according to another embodiment, be closed by solid walls so as to form a closed compartment used to house the air filter 20.

As can be seen, the air filter 20 has the shape of a parallelepiped cassette delimited by peripheral walls 20.1, 20.2 defining a compartment or internal volume 22, namely 4 side walls 20.1 and a top wall 20.2 or ceiling, closing the air filter 20 like a cover. The air filter 20 further comprises a bottom 20.3 comprising at least one air inlet opening 23, in particular one or more air passage orifices, typically a perforated bottom wall. Within the internal volume 22 of the air filter 20 is arranged one (or more) filtration element 25, such as a HEPA type filter or other, used to purify the air.

Furthermore, the filter housing 14 comprises one (or more) bottom structure 14.1 on which the air filter 20 rests, preferably the bottom structure 14.1 comprises a bottom wall. This wall or bottom structure 14.1 comprises one (or more) openings 14.2, for example a wide central opening. The bottom structure 14.1 can form an annular or other shoulder, on which the air filter 20 rests when it is positioned in the filter housing 14.

Thus, the air flow can pass from the air distribution chamber 13 to the internal compartment 22 of the air filter 20 since the air distribution chamber 13 is in fluid communication with the filter housing 14 and therefore also with said internal compartment 22 of the air filter 20, via the opening 14.2 arranged in the bottom structure 14.1, that is to say in the bottom wall, of the filter housing 14 and then via the opening(s) air inlet 23, such as air passage orifices, arranged in the bottom 20.3 of the air filter 20.

The air can then be filtered by the filtration element(s) 25, such as a HEPA type filter, arranged in the internal compartment 22 of the air filter 20.

The purified, that is to say filtered, air obtained can then exit from the internal compartment 22 of the air filter 20 through an air outlet opening 24 in fluid communication with the internal compartment 22 of the air filter 20, and then passes through a soundproofing chamber 15 in fluid communication with the filter housing 14 and located downstream thereof.

This soundproofing chamber 15 makes it possible to attenuate the noise generated by the sucked air passing through block 1 silencer with integrated filter of the invention. It may include one or more internal baffles and/or a material absorbing sound waves.

The air then leaves the soundproofing chamber 15 through a purified air outlet 12 before being supplied to the device 30, such as a medical ventilator or the like.

It is understood that the air distribution chamber 13, the filter housing 14 and the soundproofing chamber 15 are arranged in series between the atmospheric air inlet 11 and the purified air outlet orifice. 12 of block 1 so that air entering through the atmospheric air inlet orifice 11 circulates successively through the air distribution chamber 13, the air filter 20 arranged in the housing to filter 14 and the soundproofing chamber 15, before exiting through the purified air outlet orifice 12 and being sent to the device 30, such as a medical ventilator or other, as shown schematically in . In the figures, the air circulation is shown schematically by arrows.

Preferably, the purified air outlet 12 is located at the outlet of an air outlet duct 18. The connection of the block 1 to the device 30 is done via connection means 17 arranged on the body block 10, in particular on the air outlet duct 18. Preferably, the connection means 17 comprise a downstream portion 18.1 of the air outlet duct 18, which downstream portion 18.1 has a frustoconical shape and is terminated by the purified air outlet 12.

The frustoconical shape of the downstream portion 18.1 of the air outlet duct 18 makes it possible to connect the block 1 by fitting into the air inlet duct 31, also called air inlet, of the internal air circuit 32 of the air user device 30, such as a medical ventilator, in order to thus ensure a fluid connection of the block 1 to the air user device 30 to supply it with purified air coming from the outlet orifice of purified air 12 at the entrance. The air inlet duct 31 has a circular section at the air inlet, that is to say it is cylindrical or similar, and is dimensioned to receive and hold the downstream portion by nesting. 18.1 frustoconical of the air outlet duct 18.

The air outlet duct 18 comprises a peripheral flange 19 serving as a stop to stop the translation of the frustoconical downstream portion 18.1 of the air outlet duct 18 in the air inlet duct 31 of the device 30, during its insertion, i.e. during their connection by nesting.

The air inlet 31 of the device 30 feeds an internal circuit 32 conveys the air to the turbine 33 which sucks the air during its operation, that is to say during the rotations of the wheel internal of the turbine 33, then expels it via an air exhaust duct, that is to say a turbine air outlet 34.

In other words, the air, which is sucked in by the turbine 33, also called a compressor or (micro-) blower, circulates in the internal circuit 32 of the device before being expelled by an air outlet 34 connected to the turbine. fluidly, for example, to the patient circuit of a medical ventilator, such as a flexible gas conduit(s) supplying a respiratory interface, such as a respiratory mask or the like (not shown).

To ensure that the removable air filter 20 is held in the filter housing 14, filter fixing means 16 are also provided, typically one or more holding elements 16.1 which cooperate with the air filter 20 to hold it in position. in filter housing 14.

In the embodiment of And , the block body 2 of the block 1 of the invention comprises two holding elements 16.1 of elongated shape forming parallel arms pressing on the ceiling, that is to say the top wall 20.2, of the air filter 20 to push it elastically towards the bottom 14.1 of the filter housing 14 and thus keep it in position, that is to say taken “sandwiched” between the two holding elements 16.1 and the bottom 14.1 of the filter housing 14.

Furthermore, in order to improve the maintenance of the air filter 20, the filter fixing means 16 may comprise lateral expansions 16.2, also called lateral wings, which laterally hold the air filter 20 by sandwiching two opposite side walls 20.1, that is to say on two opposite sides of the air filter 20. The lateral expansions 16.2 can be integral with the two holding elements 16.1, as illustrated in . Likewise, the two holding elements 16.1 can be integral with each other.

The two holding elements 16.1, i.e. the arms, are attached to the block body 2 by a proximal end 16.3 and also comprise a free distal end 16.4. The free distal end 16.4 of the two holding elements 16.1 can be shaped to present shoulders or the like forming hooks or claws abutting against the rear face 20.1 of the air filter 20 to hold the air filter 20 in position in the filter housing 14.

The silent block 1 with integrated filter of the invention can be used in the medical field and in any other technical field.

Claims (7)

Block (1) silencer with integrated filter for device (30) sucking in ambient air comprising a block body (10) comprising:

• an atmospheric air inlet port (11) and a purified air outlet port (12),
• an air distribution chamber (13) in fluid communication with the atmospheric air inlet port (11),
• a filter housing (14) in fluid communication with the air distribution chamber (13), configured to receive an air filter (20) removably arranged in the filter housing (14) such that the the air coming from the air distribution chamber (13) passes through said air filter (20),
• filter fixing means (16) configured to ensure retention of the removable air filter (20) in the filter housing (14), and
• a soundproofing chamber (15) in fluid communication with the filter housing (14) and with the purified air outlet (12),

and in which:

• the air distribution chamber (13), the filter housing (14) and the soundproofing chamber (15) are arranged in series between the atmospheric air inlet port (11) and the air outlet port (11). purified air outlet (12) so that air entering through said atmospheric air inlet port (11) circulates successively through the air distribution chamber (13), the air filter air (20) arranged in the filter housing (14) and the soundproofing chamber (15), before exiting through said purified air outlet port (12), and

• the block body (10) further comprises connection means (17) configured to ensure fluid connection of the block (1) to an air inlet of an internal air circuit of a user device (30) air to supply purified air from the purified air outlet (12) to the air inlet of the internal air circuit of the air user apparatus (30).

Block according to claim 1, characterized in that:

• the atmospheric air inlet port (11) is carried by an air inlet duct (11.1) of the block body (10) and/or
• the purified air outlet port (12) is carried by an air outlet duct (18) of the block body (10).

Block according to claim 1, characterized in that the connection means (17) comprise a downstream portion (18.1) of the air outlet duct (18), of frustoconical shape ending in the purified air outlet orifice ( 12). Block according to claim 1, characterized in that the filter fixing means (16) comprise at least one holding element (16.1) which cooperates with the air filter (20) to hold it in position in the filter housing ( 14). Block according to claims 1 or 4, characterized in that the filter housing (14) comprises at least one bottom structure (14.1) on which the air filter (20) rests, preferably the bottom structure (14.1) includes a bottom wall. Block according to claim 1, characterized in that the air filter (20) comprises a peripheral wall (21) defining an internal compartment (22), at least one air inlet opening (23) and at least one opening air outlet (24) in fluid communication with the internal compartment (22), and at least one filtration element (25) arranged in the internal compartment (22). Apparatus (30) for sucking ambient air comprising a motorized turbine (33) for sucking air via an air inlet (31) of the apparatus (30), characterized in that a silent block (1) with integrated filter according to one of the preceding claims, is arranged in a removable manner, in said air inlet (31) of the device (30), preferably the device is a medical ventilator.