FR2892485A1 - DEVICE FOR REGULATION AND SEALING ON AN ORIFICE WHICH HAS BEEN OBTURED OR OPEN AS NEEDED - Google Patents

Abstract

The closure device (2) comprises a flap (6) mounted articulated on the end of a fluid circulation duct (3), between an open position allowing the circulation of the fluid in the duct, and a position closure preventing the flow of fluid in the pipe. A flexible resilient blade (7) is mounted on the flap, between the flap and the pipe, so that it is pressed tightly around the circumference of the mouth of the pipe (3) when the flap is in position. closing position, and that it regulates the flow of fluid entering the pipe, deforming according to the pressure inside the pipe, when the flap is in the open position.

Description

The present invention relates to a device for closing a pipe

  fluid flow, such as an air duct or a vent. Collective or individual dwellings, private or industrial premises are generally equipped with controlled mechanical ventilation systems, commonly known as VMC installations, to ensure a minimum of air renewal, necessary for hygiene, quality air and the durability of buildings. A VMC installation usually consists of a ventilation group, a horizontal collector or terrace network, and at least one vertical network serving the various rooms to be ventilated through ventilation outlets. The regulations in force impose the possibility of being able to increase, at the discretion of the user, the flow extracted in the kitchen, in order to better evacuate the smells and vapors at the time of the preparation of the meals. This flow rate variation is generally obtained by the intervention of the user on a complementary ventilation mouth provided with a cord, a chain or other which actuates a shutter shutter. In "normal" operation, for example for a kitchen outside meal preparation periods, a small flow is provided to limit energy losses. In this case, the additional ventilation opening is closed by the flap, only the main ventilation opening ensuring the extraction of stale air. In "peak" operation, for example for a kitchen at the time of preparation of meals, it ensures a large flow. In this case, the user actuates the shutter shutter of the complementary ventilation opening so that the latter ensures the extraction of a quantity of stale air which is added to that extracted by the main ventilation opening. In "normal" operation, it is necessary to ensure perfect sealing of the additional ventilation opening in order to avoid parasitic air flows that are mainly troublesome for acoustic reasons (whistling). This seal is most often made by means of a foam-type seal attached to the hinged flap for closing the complementary mouth 35.

  In order to take into account the pressure fluctuations existing on a VMC network, it is sometimes necessary to regulate the flow rate passing through a ventilation opening. This regulation can be achieved, for example, by means of an elongate obstacle consisting of an elongated and elastically deformable bladder placed in the ventilation mouth, the inside of the bladder being connected to a pressure tap located at the before the mouth. Thus, depending on the depression inside the ventilation opening, the bladder deforms and therefore more or less limits the air passage section and therefore calibrates the air flow within a certain range of values. . When it is necessary at the same time to regulate the flow of air passing through a ventilation opening and to ensure a sealing of the latter as required, the ventilation opening must comprise on the one hand a control device placed at the inside thereof, and secondly a flap having sealing means. This involves the realization of a ventilation of complex structure and having a very high production cost. The present invention therefore aims to remedy these drawbacks.

  The technical problem underlying the invention is the production of a device for closing a fluid circulation pipe and regulating the flow rate therethrough, which is of simple structure and has a low production cost. . For this purpose, the invention relates to a closure device for a fluid circulation duct, such as an air duct or a ventilation duct, comprising a flap mounted articulated on the end of a duct. fluid circulation, - between an open position allowing the circulation of the fluid in the pipe, - and a closed position preventing the circulation of the fluid in the pipe, characterized in that an elastic flexible blade is mounted on the shutter, between the shutter and the pipe, so that: - it is sealed against the circumference 35 of the mouth of the pipe when the flap is in the closed position, and - that it regulates the flow rate of the fluid entering the pipe, deforming as a function of the pressure inside the pipe, when the flap is in the open position. Thus, depending on the position of the shutter, the closure device allows either the circulation of the fluid in the pipe and the regulation of the flow through the latter through the deformation of the elastic flexible blade, or the closure of sealing manner of the mouth of the pipe through the resilient flexible blade, the sealing being in this case obtained through the vacuum forces prevailing inside the pipe that suck and seal tightly the blade on the circumference of the mouth of the pipe. As a result, the resilient flexible blade makes it possible firstly to regulate the flow rate passing through the pipe and secondly to achieve sealing of the pipe when the latter is closed by the shutter.

  Thus, one and the same element allows both the closure of the pipe and the regulation of the flow rate of the fluid passing through it, which therefore results in a shut-off and regulation device which is of simple structure and which has a cost of low production. According to another characteristic of the invention, the resilient flexible blade is mounted on the flap so that it is pressed sealingly between the circumference of the mouth of the pipe and the flap when the flap is in position. closing. Thus, in this case, in addition to the vacuum forces that suck the flexible blade against the circumference of the mouth, the flap also exerts a mechanical pressure on the blade towards the mouth, which consequently further improves the sealing of the pipe in the closed position of the shutter. According to another characteristic of the invention, the flap is articulated on the pipe about an axis perpendicular to the axis of the pipe, a portion of the flexible blade is fixed near the end of the flap opposite the hinge axis, and a portion of the flexible blade is supported on the circumference of the mouth of the pipe, substantially at the axis of articulation of the flap, even when the flap is in the open position. Advantageously, the flexible blade is made of synthetic material, such as a polyester film.

  Advantageously, the attachment of the flexible blade to the shutter is achieved by snapping, jamming, screwing, riveting, gluing or welding. In any case the invention will be better understood with the aid of the description which follows with reference to the attached schematic drawing showing, by way of non-limiting example, an embodiment of this closure device. Figure 1 is a perspective view showing the shutter in the closed position. Figure 2 is a perspective view showing the shutter in the open position. Figure 3 is a sectional view along the line III-III of Figure 1. Figure 4 is a sectional view along line IV-IV of Figure 2. Figures 1 to 4 show a closure device 2 of a mouth ventilation device 3 having a body 4 of circular section 15 truncated extended, at its mouth facing the closure device, by a radial return 5 facing outwards. The shutter device 2 comprises a shutter 6 having a shape corresponding substantially to that of the ventilation opening 3, but of substantially larger dimensions. The flap 6 is articulated on the radial return 5, substantially opposite the flat portion of the body 4 of the ventilation opening 3, about an axis A perpendicular to the axis of the ventilation opening 3, located on the outskirts of the mouth of the latter. The flap 6 is pivotable between an open position (shown in FIGS. 2 and 4) allowing the circulation of the fluid in the ventilation opening 3 and a closed position (shown in FIGS. 1 and 3) in which it closes the door. mouth of the ventilation mouth to prevent the circulation of fluid in the latter. The closure device 2 also comprises an elastic flexible blade 7 made of synthetic material, for example a polyester film, of generally circular truncated shape and of the same profile as the radial return 5 of the ventilation opening 3. This flexible blade 7 is disposed between the flap 6 and the radial return 5 of the mouth 3. As more particularly shown in Figure 4, a portion 35 of the elastic flexible blade 7 is fixed on the face of the flap facing the ventilation opening 3, substantially on the side of the free end of the flap 6.

  This fixing of the blade 7 on the shutter 6 is achieved by means of two studs 8, the studs being fixed on the face of the shutter facing the ventilation opening 3, substantially on the side of the free end of the shutter 6, and being intended to cooperate with two openings in the flexible blade 7. A portion of the flexible blade 7, opposite that fixed on the flap 6, always bears on the circumference of the mouth of the ventilation mouth 3, substantially at the hinge axis A of the flap, even when the flap is in the open position, this given the elasticity of the blade which keeps in position this portion of the blade on the mouth. It should be noted that the blade 7 is mounted on the flap 6 and rests on the mouth of the ventilation mouth 3 so that it is sealed between the circumference of the mouth of the mouth of the mouth. ventilation 3 and the shutter 6 when the latter is in the closed position, and that it regulates the flow rate of the fluid entering the ventilation opening, by deforming according to the pressure inside the ventilation opening when the flap is in the open position. The operation of the closure device 2 will now be described by considering that the ventilation opening 3 is an additional ventilation opening designed to ensure the "peak" extraction flow rate in a kitchen. Thus, outside the meal preparation periods, the ventilation opening 3 must be closed.

  As a result, the flap 6 is in the closed position and the flexible blade 7 is pressed between the circumference of the mouth of the ventilation opening and the flap 6 in order to seal the closure of the mouth. ventilation. It should be noted that the plating of the flexible blade 7 on the circumference of the mouth is also ensured by means of the vacuum forces prevailing in the interior space delimited by the ventilation opening 3 which sucks the blade, which ensures a better seal of the ventilation opening 3 and thus avoids any parasitic air flow. When the user wishes to ensure a large extraction rate in the kitchen, that is to say for example during the preparation of meals, it actuates the opening of the flap 6 so as to allow the circulation of fluid in the ventilation opening 3, as shown in Figures 2 and 4. It should be noted that the opening and closing of the shutter 6 can be controlled, according to the embodiments of the invention, electrically or mechanically by the user. Thus, the flap can be actuated, for example, by means of a cord or a cable, or by the action on a switch associated with an electric motor. When the flap is in the open position, the ventilation vent 3 allows the extraction of a greater amount of stale air from the kitchen and therefore a better conford for the user. In order to compensate for the pressure fluctuations existing on the VMC network, it is necessary to regulate the air flow passing through the ventilation opening 3. This regulation is obtained by the deformation of the flexible blade 7 which is due to the differences in pressure between the two faces of the latter. Indeed, when the flap is in the open position, the pressure prevailing inside the ventilation opening 3 is less than that prevailing in the space defined between the flap 6 and the elastic flexible blade 7. The flexible blade 7 is urged towards the inside of the ventilation opening 3 to a regulation position. The deformation of the flexible blade 7 is made possible by sliding on the radial return 5 of its end zone located on the opposite side to its attachment zone on the flap 6. As a function of the pressure differences on either side of the flexible blade 7, the latter is more or less deformed in order to limit more or less the section of passage of air through the mouth of the ventilation mouth 3, the air passage section being as much lower than the depression inside the mouth is important and vice versa. This deformation of the flexible blade 7 thus makes it possible to calibrate the flow of extracted air within a certain range of values. When the user considers that it is no longer necessary to provide a "peak" extraction flow, it actuates the closure of the shutter 6 which thus ensures with the flexible blade 7 a perfect seal of the ventilation opening 35 3.

  As is apparent from the foregoing, the invention brings a great improvement to the existing technique, by providing a device for closing a ventilation opening and regulating the flow therethrough, which is of simple structure and having a low cost of production.

  It goes without saying that the invention is not limited to an embodiment, described above by way of example, but that it encompasses all the variants of embodiment. It is thus particularly that the portion of the blade located near the axis of articulation of the flap could be fixed on the radial return 5 of the pipe and not simply rely on it.

Claims (4)

  1. Device for closing (2) a fluid circulation duct, such as an air duct or a ventilation duct, comprising a flap (6) mounted articulated on the end of a circulation duct of fluid (3), - between an open position allowing the circulation of the fluid in the pipe, and - a closed position preventing the circulation of the fluid in the pipe, characterized in that an elastic flexible blade (7) is mounted on the flap (6), between the flap (6) and the pipe (3), so that: - it is sealed against the circumference of the mouth of the pipe (3) when the shutter is in the closed position, and - it regulates the flow of the fluid entering the pipe, by deforming as a function of the pressure inside the pipe, when the shutter is in the position of opening.   2. Shutter device (2) according to claim 1, characterized in that the elastic flexible blade (7) is mounted on the flap (6) so that it is sealingly pressed between the circumference of the the mouth of the pipe (3) and the flap (6) when the flap is in the closed position.   3. Shutter device (2) according to one of claims 1 or 2, characterized in that: - the flap (6) is articulated on the pipe (3) about an axis (A) perpendicular to the axis of the pipe - a portion of the flexible blade (7) is fixed near the end of the flap opposite to the axis of articulation, and 30 - a portion of the flexible blade (7) is supported on the circumference of the mouth of the pipe (3), substantially at the axis of articulation (A) of the flap, even when the flap is in the open position.   4. Shutter device (2) according to one of claims 1 to 3, characterized in that the flexible blade (7) is made of synthetic material, such as a polyester film. . Shutter device (2) according to one of claims 1 to 4, characterized in that the fixing of the flexible blade (7) on the flap (6) is achieved by snapping, binding, screwing, riveting, gluing or welding .