FR2708713A1 - Installation for delivering fluid, especially a medical fluid, to a station for use - Google Patents

Abstract

Each line (L1, L2, etc.) for delivering fluid, typically a medical gas, at a first pressure coming, normally, from a main source of fluid (1), can be selectively coupled to a second source (8) of the said fluid at the same pressure under the action of a pneumatic control device (11) detecting a drop in the pressure upstream of the supply line to below a predetermined pressure level and causing the second source to come into operation. Application especially to the supply of medical gases.

Description

Installation for supplying fluid, in particular medical fluid to
a user station
The present invention relates to installations for supplying at least one fluid to a user station, comprising at least one line for supplying fluid at a first pressure connected to a main source of said fluid.

 The operators of fluid distribution networks have, for their own management, generally sophisticated security systems making it possible to guarantee the distribution of fluids under specified conditions. It is generally not the same in local autonomous networks nor, more generally, at the level of the end user. In certain specific applications, in particular in hospital or medical sites, several gaseous fluids are distributed to the same user stations where the user, for example the anesthesiologist or the resuscitator, has an absolute need to be assured of the supply correct, in pre-established standards of the fluid or fluids that it uses without having to concern itself with the means used to supply these fluids to standards.

 The object of the present invention is therefore to propose an installation for the local supply or distribution of at least one fluid, typically a medical fluid, of simple but effective and reliable design, suitable for the supply of several fluids, and making it possible to ensure security requirements for users.

 To do this, according to a characteristic of the invention, the installation comprises a second source of said fluid at said first pressure and control means, sensitive to the detection of a first pressure level lower than the first pressure in a part upstream of the supply line, to connect the second source to a downstream part of the supply line and thus ensure the continuity of the supply of the fluid.

According to other characteristics of the invention:
- to guarantee the safety and autonomy of the installation, the control means are of the fluid type and are connected to the upstream part of the supply line
the control means comprise a piloted valve, advantageously of the pneumatic type, arranged in a pipe connecting the second source of fluid to the downstream part of the supply line;
the control means comprise at least a first pressure sensor providing an alert signal when the pressure in the upstream part of the supply line drops below a second pressure level comprised between the first pressure and the first pressure level.

 Within the meaning of the present invention, by “fluid” is meant a fluid, more particularly a gas, circulating from a pressurized source of said fluid but also vacuum (air depression) circulating towards a vacuum pump.

Other characteristics and advantages of the present invention will emerge from the following description of an embodiment, given by way of illustration but in no way limiting, made in relation to the appended drawing, in which:
- The single figure schematically represents an installation for supplying a medical fluid according to the invention.

 In the particular embodiment of the figure, a main source 1 of a medical gas has been represented, for example a medical oxygen storage tank, supplying pipes A, B each leading to at least one room comprising various rooms. or separate rooms, each pipeline dividing into at least one, three in the example shown, supply lines, L1-L3, leading to respective use stations U1-U3. The description below will relate essentially to the elements associated with one (him) of the supply lines, the same elements being associated with each of the other lines.

 Downstream of the diversion of line A, each line L comprises a pressure regulator M reducing the pressure of the gas supplied by the source 1 (typically of the order of 8 × 105 Pa for medical oxygen) to a nominal pressure of use P (typically 3.5 x 105 Pa for medical oxygen). A sensor 2 supplies a signal 3 at the output, representative of the gas pressure upstream of the pressure regulator M, which is transmitted to an indicator unit I. Each supply line L can be broken down, downstream of the pressure regulator M, and a part of upstream line L1A and a part of downstream line LI B separated by a non-return valve 4. The downstream part LI B of each line is connected, by a conduit 5 comprising a non-return valve 6, to a pipe emergency 7 from a second gas source 8 supplying, after expansion, said gas at nominal pressure (3.5 x 105 O5 Pa for medical oxygen). The pipe 7 comprises a pneumatic distribution valve 9 controlled by a pneumatic signal 10 supplied by a detection and control device 11. The latter comprises, for each line L, an inlet 12 connected by a conduit 13 to the upstream part L1A of the line between the pressure regulator M1 and the non-return valve 4. The box 4 also includes at least one inlet 14 for a pilot gas, typically the gas supplied before expansion, at 15, by the second source 8. The pressure of the gas at the inlet 12 is measured by a sensor 16 providing at the output a signal 17, advantageously addressed to the indicator unit I, when the pressure detected in the upstream part LIA drops below a first determined level of pressure P1 ( typically 2.8 x 1 05 Pa for medical oxygen), lower than the nominal pressure P. The pressure at the inlet 12 is sent to a pneumatic memory relay 18 calibrated at a second pressure level P2 (typical 2.7 x 105 Pa for medical oxygen) below the first level P1 and controlling a pneumatic power relay 19 supplying the signal 10 to the pneumatic valve 9.

 In the case where, as shown, the same gas is supplied to several user stations by lines L in parallel, the latter are associated with a measuring device 20 comprising a threshold pressure sensor 21 connected to the downstream parts of the different lines L by pneumatic logic cells (two AND cells shown in the example with three lines) outputting a signal 22 indicating that at least one of the lines has gone into backup configuration. Advantageously, the pressure signals 3, 17 and 22 are sent to an indicator unit I of the type described in French patent application 92.07485 of June 19, 1992 to which is associated, at each use station U, a simplified answering unit J, as also described in the above-mentioned patent application.

The operation of the installation is as follows:
In normal operation, each use station U is supplied directly by the main gas source 1.

 When the pressure detected by the sensor 16 falls below a first pressure level P1 (2.8 x 105 Pa for medical oxygen) 1 the indicator unit I (and J) indicates (s) this situation of alarm. As soon as this pressure drops below a second determined level P2 (2.7 x I 105 Pa for medical oxygen), the control unit 11 actuates the pneumatic valve 9, to compensate for the failure of the supply line upstream and puts the low upstream pressure in memory to check at regular intervals, typically of the order of a minute, whether the faulty situation upstream continues, this emergency situation then also being permanently indicated by the indicator unit I.

 Although the invention has been described in relation to a particular embodiment, it is not limited thereto but is on the contrary subject to modifications and variants which will appear to those skilled in the art. In particular, the composition and arrangement of the elements of the control unit II can be adapted or supplemented by other fluidic elements. Those described in relation to the previous description are available from Crouzet (range 81.5XX). In addition, in particular, in hospital or medical environments, the installation will be duplicated for the parallel supply not only of medical oxygen, but also of nitrous oxide and medical air as well as, in a slightly modified form, with vacuum supply circuits, where the second (backup) gas source is constituted by at least a second vacuum pump.

Claims (10)

 1. Installation for supplying at least one fluid to at least one use station (U), comprising at least one line (L) for supplying the fluid at a first pressure (P) connected to a main source (1) fluid, characterized in that it comprises a second source (8) of said fluid at said first pressure (P1) and control means (11; 9) sensitive to the detection of a lower first pressure level (P2) at the first pressure (P) in an upstream part (LA) of the supply line to connect the second source (8) to a downstream part (LB) of the supply line (L).  2. Installation according to claim 1, characterized in that the control means (11; 9) are of the fluid type and are connected (13) to the upstream part (LA) of the supply line (L).  3. Installation according to claim 1 or claim 2, characterized in that the control means comprise a pilot valve (9) disposed in a pipe (7) connecting the second source (8) to the downstream part (LB) of the supply line (L).  4. Installation according to claim 2 and claim 3, characterized in that the piloted valve (9) is a pneumatic valve and in that the control means (11) comprise a pneumatic relay (18).  5. Installation according to claim 4, characterized in that the pneumatic relay (18) is a memory relay.  6. Installation according to one of the preceding claims, characterized in that the control means (11) comprise a first sensor (16) providing a signal (17) when the pressure in the upstream part (LA) of the supply line (L) drops below a second pressure level (P1) between the first pressure and the first pressure level (P2).  7. Installation according to one of the preceding claims, characterized in that the downstream part (LB) of the line (L) comprises a second sensor (21) providing a signal (22) representative of the fluid pressure in the downstream part .  8. Installation according to claim 6 and claim 7, characterized in that the pressure signals (17; 22) are transmitted to at least one indicator unit (I) associated with the supply line (L).  9. Installation according to one of the preceding claims, characterized in that it comprises at least two parallel supply lines (L1, L2) individually connectable (5) to the second source (8).  10. Installation according to one of the preceding claims, characterized in that the fluid is a medical gas.