EP0034096B1 - Circuit for the ventilation and filtration of the atmosphere within a closed space - Google Patents

Description

The present invention relates to a circuit for ventilation and filtration of the medium contained in a sealed enclosure, this circuit comprising a main circuit and an emergency circuit making it possible to ensure ventilation and filtration in the event of failure of the main circuit or in the event of rupture of the sealing of the enclosure.

More specifically, the invention applies to the case where the medium contained in the enclosure presents risks of contamination for people located nearby. This is particularly the case when the sealed enclosure is used to carry out biological experiments or manipulations, for example on viruses or bacteria, or when the products contained in the enclosure are radioactive products.

In known manner, the protection of the personnel in the event of micro-leakage in the enclosure is obtained by establishing a permanent depression inside it. This depression is generally established by means of a motor-ventilator arranged in an outlet pipe further equipped with filtration means making it possible to reject the gases without the latter being contaminated. In particular, the outlet pipe can lead to the outside of the building in which the confinement enclosure is located, in particular in order to avoid that residual vapors leaving the enclosure, for example during sterilizations, inconvenience the personnel present in the room.

This outlet pipe making it possible to establish a vacuum inside the enclosure is generally associated with an inlet pipe equipped with filtration means and in which the flow rate is regulated. In combination with the outlet pipe, this inlet pipe makes it possible to regularly renew the medium contained in the enclosure. Such renewal is necessary when calories or a product such as water vapor are released inside the enclosure, for example by a motor or an oven, or when living beings present inside the enclosure requires the regular supply of a certain volume of fresh air.

Document DE-A-2 530 608 also discloses a ventilation circuit intended to regulate the pressure in a glove box. In this circuit, a pressure gauge sensitive to an upper threshold of pressure in the glove box automatically controls the closing of the inert gas inlet pipe and the opening of an aeration valve in the evacuation pipe.

On the other hand, US-A-3,396,375 describes a circuit making it possible to create a depression in a glove box, in which a second fan is placed in the exhaust duct to compensate for a possible failure of the main fan. .

In the ventilation and filtration circuits of the type defined above, the object of the present invention is to maintain the vacuum inside the enclosure and to continue to ensure the renewal of the medium contained in the enclosure in the event of failure of the normal ventilation circuit originating, for example, from an engine shutdown, or in the event of a leak occurring in the enclosure. More specifically, the subject of the present invention is the production of a ventilation and filtration circuit making it possible to obtain this result without the need to provide two complete and independent circuits, that is to say without increasing too costly the cost of installation.

For this purpose and in accordance with the invention, a circuit for ventilating and filtering the medium contained in a sealed enclosure is proposed, comprising an inlet pipe equipped with flow control means and filtration means, and a pipe for outlet equipped with filtration means and first means for establishing a vacuum inside the enclosure, this circuit comprising more second means for establishing a vacuum inside the enclosure, characterized in that the second means are arranged in the inlet pipe upstream of the filtration means, the power of the second means being greater than the power of the first means, said circuit further comprising means for detecting a fall in depression prevailing at inside the enclosure automatically controlling the implementation of the second means for establishing a vacuum inside the enclosure.

Thanks to this characteristic, in case of failure of the first means to establish a vacuum inside the enclosure or in case of rupture of the sealing of the enclosure, the medium contained in the enclosure is sucked by the pipe. inlet and automatically renewed by the outlet pipe, as well as by a possible leak from the wall of the enclosure, so that these pipes play reverse roles depending on whether the circuit is in normal operation or in emergency operation.

According to a preferred embodiment of the invention, the detection means can be constituted by a pressure switch which communicates with the enclosure by a pipe in which are arranged filtration means and means for interrupting the communication between the enclosure and the pressure switch, especially when it is necessary to sterilize the medium contained in the enclosure.

In the case where the containment must be decontaminated, a sterilization device can be connected to the inlet pipe between the filtration means and the second means for establishing a depression inside the enclosure.

A particular embodiment of the invention will now be described, by way of nonlimiting example, with reference to the appended drawing in which the single figure represents a sealed enclosure equipped with a ventilation and filtration circuit produced in accordance with the teachings. of the present invention.

The single figure shows a sealed enclosure 10 isolating air in a sterile environment from the surrounding atmosphere. An enclosure of the type of enclosure 10 can in particular be used in order to carry out biological experiments or manipulations, for example on viruses or bacteria, or even to work on radioactive products.

In order to protect an operator working outside the enclosure from any micro-leakage from the enclosure 10, a permanent vacuum is created inside the enclosure by means of an outlet pipe 12 through which the air contained in the enclosure is sucked by means of a suction fan 14 which rejects this air into the atmosphere, outside the building in which the enclosure 10 is located in order to protect the personnel from the residual vapors which leave of the enclosure, in particular in the event of sterilization. Two air filters 16, of the absolute type, are placed in the pipe 12 at the outlet of the enclosure 10, so as to retain the contaminating products such as bacteria or viruses which are present in the enclosure. In known manner, each of the filters 16 can be made of sandpaper and mounted inside a sealed metallic or plastic casing. Each filter has an efficiency of 99.99% for particles of 0.3 µ. A full-flow valve 18 is placed in the pipe 12 between the fan 14 and the filters 16 in order to regulate the vacuum inside the enclosure during sterilizations.

If living beings are inside the enclosure 10, which is generally the case when this enclosure is used to perform biological manipulations, it is necessary to regularly renew the air contained in the enclosure. This air renewal can also be justified by the need to evacuate the calories or water vapor that are generated inside the enclosure by devices such as motors or ovens. To this end, an inlet pipe 20 also opens into the enclosure 10 in order to admit air therefrom the outside atmosphere by means of two absolute filters 22 mounted in series. The filters 22 can be of the same type as the filters 16 mounted in the outlet pipe 12. A calibrated check valve 24 is also mounted in the inlet pipe 20, upstream of the filters 22, in order to regulate the flow of air entering the enclosure 10.

The assembly constituted by the inlet 20 and outlet 12 pipes and by the various devices mounted in these pipes constitutes a ventilation and filtration circuit ensuring in normal operation the establishment of a given vacuum inside the enclosure 10 and the regular ventilation of this enclosure. The arrows 26 show in the figure the flow of air generated by this circuit in normal operation.

In accordance with the present invention, provision is made to maintain a given vacuum inside the enclosure 10 and to continue to provide ventilation for this enclosure, even in the event of a failure of the fan motor 14 or in the event of a break in the sealing of the enclosure 10 resulting for example from the tearing of one of the gloves by means of which the manipulations inside the enclosure can be carried out. To avoid having to double the circuit normally ensuring the establishment of a vacuum in the enclosure and the cooling of this enclosure, it is provided in accordance with the present invention, to use line 20 as an outlet line or d suction and the outlet pipe 12 as the inlet pipe for emergency operation. To this end, a second suction fan 28 is mounted in the pipe 20, upstream of the valve 24 during normal operation of the circuit. In the event of a failure of the motor of the pump 14 or rupture of the hermeticity of the enclosure 10, the use of the suction fan 28 causes, via the pipe 20, the maintenance of a vacuum at inside the enclosure 10, and the air contained in the enclosure is regularly renewed by the pipe 12 as well as by a possible leak from the wall of the enclosure. The direction of air flow is represented by the arrows 46 in the figure.

Since the suction fan 28 must make it possible to maintain a vacuum in the enclosure 10, even in the event of the sealing of the latter being broken, the power of this fan is greater than the power of the fan 14 ensuring the creation of depression in normal operation. Thus, if we consider that the largest accidental leak can only result from the complete removal of a handling glove, which corresponds to a leak area of 90 cm ² , and if we wish to maintain an internal vacuum of 30 Pa (3 mm of water column) with a fresh air flow of 4 m ³ / h, the power of the fan motor 28 is 85 Watts while the power of the fan motor 14 is of 40 Watts.

In the embodiment shown in the figure, the operation of the fan motor 28 is automatically controlled by the drop in vacuum prevailing inside the enclosure 10, whatever the cause of this drop in pressure. For this purpose, a pressure switch 30 communicates with the enclosure 10 by a pipe 32 in which are further disposed an absolute filter 34 and a full-flow valve 36. The filter 34 is of the same type as the filters 16 and 22 and protects the pressure switch 30 from any contamination, while the valve 36 makes it possible to isolate the latter from the enclosure when necessary, and in particular during sterilizations.

In the event of a drop in the vacuum prevailing in the enclosure 10, the pressure switch 30 emits a signal which is transmitted by an electrical circuit 38 to an electronic control system of conventional design 40 which in turn delivers a control signal transmitted by a line 42 to the fan motor 28. Thus, when the vacuum inside the enclosure 10 drops below a given value, the start-up of the fan 28 is automatically controlled in order to restore the vacuum and circulation air in the direction of the arrows 46 inside the enclosure.

During certain manipulations, it is sometimes necessary to sterilize the medium contained in the enclosure 10. For this purpose, a sterilizer 44 can be connected to the inlet pipe 20 upstream of the valve 24.

Of course, the invention is not limited to the embodiment which has just been described by way of example but covers all its variants. Thus, the medium contained inside the enclosure can be different from atmospheric air. The inlet and, optionally, outlet pipes are then connected to suitable conventional supply and outlet circuits.

Claims (3)

1. Circuit for the ventilation and filtration of a medium contained within a closed space (10) comprising an inlet duct (20) equipped with pressure-regulating means (24) and filtration means (22) and an outlet duct (12) equipped with filtration means (16) and first means (14) for establishing a reduced pressure within the interior of the closed space, said circuit additionally comprising second means (28) for establishing a reduced pressure within the interior of the closed space (10), characterized in that the second means (28) are located in the inlet duct (20) upstream of the filtration means (22), the power of the second means (28) being greater than the power of the first means (14), said circuit additionally comprising means (30) for detecting a change in the reduced pressure obtaining in the interior of the closed space (10) automatically commanding the activation of the second means (28) for establishing a reduced pressure within the closed space.

2. Ventilation-filtration circuit according to claim 1 characterized in that said detection means (30) comprise a manostat which communicates with the closed space (10) by a duct (32) within which are located filtration means (34) and means (36) for interrupting communication between the closed space (10) and the manostat (30).

3. Ventilation-filtration circuit according to either one of the preceding claims, applied to a closed space (10) to be decontaminated, characterized in that a sterilization apparatus (44) is branched from the inlet duct (20) between the filtration means (22) and the second means (28) for establishing a reduced pressure within the closed space (10).

Images