FR2882661A1 - Liquid filter unit, e.g. for diesel engine fuel, has plug for residual liquid outlet accessed at top of unit and operated without unsealing upper opening - Google Patents

Abstract

A filter unit, comprising a housing (21) containing a filter element between a liquid inlet and outlet, and a residual liquid discharge pipe (24) in its base (22a), has the latter controlled by a plug (27) extending from an opening (26) in the top (23) of the housing to an outlet in its base. It differs in that the plug can be moved between two positions, the first in which both the top opening and base outlet are sealed, and a second in which the outlet is opened while the top opening remains closed and sealed, with the residual liquid discharged by opening a separate air inlet.

Description

LIQUID FILTRATION SYSTEM COMPRISING A SHUTTER

DRAIN

  The present invention relates to liquid filtration systems having a drain plug.

  More particularly, the invention relates to a liquid filtration system comprising: - a housing defining an interior volume in which is disposed a filter element which defines an upstream zone communicating with a liquid inlet and a downstream zone communicating with a liquid outlet, the casing being provided, on the one hand, in its lower part with a waste fluid discharge pipe resulting from filtration, and on the other hand, in its upper part with an upper orifice arranged facing the evacuation pipe, and a shutter which extends between the upper and lower parts of the casing and which is housed in the discharge pipe and the upper orifice of the casing.

  Such filtration systems are in particular known from the application FR 2 829 704 which describes a drain plug which is adapted to be mounted to move between the operating position in which it seals the upper orifice and the discharge pipe in a sealed manner. of the casing and a draining position of the waste fluid in which the shutter releases both the discharge pipe and the upper casing opening so as to allow the casing to be vented and thus to empty the casing. waste fluid via the exhaust pipe.

  Nevertheless, in these filtration systems, it turns out that the tightening torque of the shutter inside the upper orifice can be relatively high after a relatively long use of the filtration system, due to the aging of the seal which comes to contact, tapping the upper orifice of the housing. Furthermore, risks of pollution also exist because of the wear of the seal on its range and in particular on the tapping of the upper orifice of the casing during the unscrewing of the shutter towards its position of emptying the waste fluid. .

  The present invention is intended in particular to overcome the disadvantages mentioned above.

  For this purpose, according to the invention, a filtration system of the kind in question is essentially characterized in that the shutter is mounted movably between an operating position in which the shutter sealingly closes the upper orifice and the pipe discharge of the housing, and a position of emptying the waste fluid in which the shutter always seals the upper hole of the housing and releases the discharge pipe.

  In preferred embodiments of the invention, it may also be possible to use, in addition, one and / or the other of the following provisions: the system comprises means for rapid evacuation of the waste fluid which are independent of the shutter; the means for rapid evacuation of the residual fluid are formed by means for venting the casing; the means for venting the casing comprise a second orifice made on the upper part of the casing and a cap which is mounted movably between a first position in which the cap sealingly closes the second orifice and a second position in the casing; which plug allows the entry of air into the housing to allow the evacuation of the waste fluid through the discharge line; the means for rapid evacuation of the residual fluid are formed by means for pressurizing the liquid at the inlet of the casing; the means for pressurizing the liquid at the inlet of the casing are formed by a pump disposed upstream of the liquid inlet of the casing; - The shutter comprises retaining means relative to the upper port of the housing to always ensure a sealed contact between the upper orifice and said shutter when the latter is in the emptying position of the waste fluid; - The retaining means are formed by at least one flexible finger formed on the upper part of the shutter, the flexible finger being adapted to come into abutting contact against a stop portion made on the housing; - The shutter extends between upper and lower ends which are each provided with a seal adapted to cooperate sealingly respectively with the upper orifice and the discharge pipe; and the seal of the upper end of the shutter remains in sealing contact on the same cylindrical surface of the upper housing orifice when the shutter is in its emptying position or in its operating position.

  Other features and advantages of the invention will become apparent from the following description of one of its embodiments, given by way of non-limiting example, with reference to the drawings.

  In the drawings: FIG. 1 is a schematic view of the filtration system according to the invention; - Figure 2 is a vertical and partial sectional view of the housing of the filtration system according to the invention, when the shutter is in its position of emptying the residual fluid; - Figure 3 is a view similar to that of Figure 2 when the shutter is in its operating position of the filtration system; and FIG. 4 is a vertical and schematic sectional view of the shutter according to the invention.

  In the different figures, the same references designate identical or similar elements.

  Figure 1 shows a liquid filtration system 1 which forms a part of a liquid supply device 2, for example such as diesel for an internal combustion engine. The fuel supply device 2 comprises: - a fuel tank 3, - the filtration system 1 which itself comprises a diesel fuel inlet 4 connected to the tank 3 by a suction circuit 5, a diesel fuel outlet 6 , an upstream zone 7 communicating with the diesel fuel inlet 4, a downstream chamber 8 communicating with the diesel fuel outlet 6, a filter element 9 interposed between the upstream zone 7 and the downstream zone 8; - A pump assembly 10 which, in the example considered here, comprises, in series, a low pressure pump 12 called transfer pump 12 and a high-pressure pump 13 (where appropriate, these two pumps could be integrated into one device), the transfer pump 12 comprising an inlet 14 which communicates with the diesel fuel outlet 6 of the filter and an excess diesel fuel outlet 15, while the high pressure pump 13 comprises a high pressure outlet 16; at least one diesel fuel injection device 17 fed by the high pressure outlet 16, this injection device 17 comprising, in the example considered here, a common ramp 18 which supplies in parallel several injectors 19, these injectors being themselves - even connected to a diesel exhaust pipe in excess 19a; and a diesel fuel return circuit 20 which is fed on the one hand by the excess diesel fuel outlet of the booster pump 12, and on the other hand by the excess diesel fuel outlet pipe 19a connected to the injectors 19, this fuel return circuit 20 opening into the tank 3 to return the excess diesel fuel not consumed in the engine supplied by the injectors 19.

  As can be seen in more detail in FIGS. 1 to 4, the liquid filtration system 1 comprises a casing 21 formed by a tank 22 which has a bottom 22a extending upwards through a cylindrical wall 22b of which upper end is secured to a cover 23 so as to form the housing 21. This housing 21 therefore defines an interior volume in which is disposed the filter element 9 which defines the upstream zone 7 which communicates with the diesel inlet 4 and the downstream zone 8 which communicates with the diesel fuel outlet 6. Furthermore, the housing 21 or more precisely the tank 22, has at its bottom 22a a discharge pipe 24 for discharging the waste fluid. resulting from the filtration, this waste fluid during operation of the filtration system being collected in a collection zone 25 delimited by the bottom 22a of the tank 22. In addition, the upper part of the housing 21 or more exactly its lid 23 is also provided with an upper orifice 26 which is arranged substantially facing the discharge pipe 24.

  The filtration system 1 also comprises a shutter 27 which extends between the bottom 22a of the tank 22 and the orifice 26 of the cover 23.

  As can be seen in FIGS. 2 to 4, this shutter 27 extends between an upper end 27a and a lower end 27b each of which are provided with sealing means which are formed in the example considered here by means of gaskets. sealing 28 and 29. These seals 28 and 29 allow, when the shutter is in the operating position as shown in Figure 3, to seal between the shutter, the opening 26 of the lid 23 and the discharge pipe 24 of the tank 22. The shutter 27 can be moved from its operating position shown in FIG. 3 to a waste fluid discharge position stored in the collection zone 25 by upward displacement. of the shutter 27 as shown in Figure 2. In this emptying position, the shutter 27, or more exactly the seal 29 disposed on its lower end 27b, releases the evacuation pipe. 24 while the seal 28 disposed on its upper end portion 27a continues to seal the opening 26 of the cover 23. In this configuration, the waste fluid can flow from the collection zone 25 in a more or less slow flow.

  In order to accelerate the evacuation of the waste fluid from the collection zone 25, the filtration system 1 according to the invention may also comprise means for rapid evacuation of the waste fluid. These rapid evacuation means may for example comprise a second orifice made in the upper part of the housing 21 and a plug (not shown) which is mounted movably between a first position in which the plug seals the second orifice and a second position in which the plug allows the entry of air into the housing 21 to allow the evacuation of the residual fluid through the exhaust pipe 24.

  According to another embodiment of the means for rapid evacuation of the waste fluid from the collection zone 25, the filtration system may also comprise a priming pump 30 (see FIG. 1) disposed at the level of the suction pipe 5. and upstream of the diesel fuel inlet 4 of the filtration system. The diesel fuel supply device can also comprise a device for heating by recirculation of the diesel fuel present in the return circuit 20. This recirculation is controlled by a thermostatic valve 31, this thermostatic valve having an inlet connected to the fuel return circuit 20 and a first output connected directly to the reservoir 3 and a second output connected to the upstream zone 7 of the housing 21.

  This thermostatic valve can for example open when the temperature of the diesel is lower than a predetermined temperature, for example of the order of 20 C or be in the closed position when the temperature of the diesel is at a temperature above this predetermined temperature from 20 C.

  Thus, when the temperature of the gas oil is less than 20 C, the thermostatic valve 31 being open, simply move the shutter 27 to its empty position as shown in Figure 2, then actuate the priming pump 30 so that the pressure inside the filter increases and allows the evacuation of the waste fluid through the discharge orifice 24. Conversely, when the temperature of the diesel is higher for example at 20 C, the thermostatic valve being closed, when the engine stops, the inside of the filter is then depressed by the fuel height Ah (see Figure 1) between the lower end 27b of the shutter 27 and the tank 3. It then simply move the shutter 27 to its emptying position as shown in Figure 2 so that air is sucked into the filter to cause the emptying of the return pipe 32 and then the the atmosphere of the wire system 1 through the same return line 32, which then allows to evacuate the residual fluid through the discharge orifice 24.

  According to yet another embodiment of the means for rapid evacuation of the waste fluid from the collection zone 25, the filtration system may comprise a low-pressure pump disposed at the level of the pipe 5 and upstream of the diesel inlet 4 This low pressure pump, known as a booster pump, can then be actuated when the engine is stopped and when the shutter 27 is in the emptying position so as to increase the pressure inside the filter and to allow the evacuation of the waste fluid. by the evacuation pipe 24.

  As can be seen in FIG. 4, the shutter 27 also comprises retaining means 33 with respect to the upper orifice 26 of the casing 21 so as to always ensure a sealing contact between the upper orifice 26 and the gasket. sealing 28 of the shutter 27 when the latter is in the emptying position as shown in Figure 2. In the example considered here, these retaining means 33 are formed by flexible fingers 34 which extend downwards and which are intended to cooperate with a shoulder 26b formed on the cylindrical wall forming the upper orifice 26 of the cover 23. The distance which separates the flexible fingers 34 from the shoulder 26b represents the opening stroke of the seal 29 the lower end 27b of the shutter 27 to release the exhaust pipe 24.

  Moreover, as can be seen in this same FIG. 4, the seal 28 disposed in the upper part 27a of the shutter 27 always remains in sealing contact on the same cylindrical surface of the opening 26, and that shutter 27 is in its operating position (Figure 3) or its empty position (Figure 2).

  On the other hand, the displacement of the shutter 27 relative to the housing 21 is by means of a threaded portion 27c of the shutter 27 which cooperates with a threaded portion of the opening 26 of the cover 23.

  Of course, this shutter 27 also allows, depending on the use, to drain all the diesel contained in the filtration system 1 and not the waste fluid.

Claims (9)

  A liquid filtration system comprising: - a housing (21) defining an interior volume in which is disposed a filter element (9) which delimits an upstream zone (7) communicating with a liquid inlet (4) and a downstream zone (8) communicating with a liquid outlet (6), the housing (21) being provided, on the one hand, in its lower part with a discharge pipe (24) of residual fluid from the filtration, and secondly, in its upper part an upper orifice (26) disposed opposite the discharge pipe (24), and a shutter (27) which extends between the upper and lower parts of the casing (21) and which is housed in the discharge pipe (24) and the upper orifice (26) of the casing, characterized in that the shutter (27) is mounted movably between: an operating position in which the shutter (27) sealingly closes the upper orifice (26) and the casing discharge pipe (24), and - a waste fluid discharge position in which the shutter (27) always seals the upper housing opening (26) and releases the exhaust pipe (24).   2. System according to claim 1, further comprising means for rapid evacuation (30) of the waste fluid which are independent of the shutter (27).   3. System according to claim 2, wherein the means for rapid evacuation of the waste fluid are formed by means of venting the housing (21).   4. System according to claim 3, wherein the means for venting the housing (21) comprises a second orifice formed on the upper part of the housing (21) and a cap which is mounted movably between a first position in wherein the plug seals the second orifice and a second position in which the plug allows the entry of air into the housing (21) to allow the evacuation of the waste fluid through the discharge line (24).   5. System according to claim 2, wherein the means for rapid evacuation of the waste fluid are formed by means for pressurizing (30) the liquid at the inlet of the housing (21).   6. System according to claim 5, wherein the means for pressurizing the liquid at the inlet of the housing (21) are formed by a pump (30) disposed upstream of the liquid inlet (4) of the housing.   7. System according to any one of the preceding claims, wherein the shutter (27) comprises retaining means (34) relative to the upper orifice (26) of the housing (21) to always ensure a sealed contact between the upper orifice (26) and said shutter (27) when the latter is in the emptying position of the residual fluid.   8. System according to claim 7, wherein the retaining means (34) are formed by at least one flexible finger (34) formed on the upper part of the shutter (27), the flexible finger (34) being adapted to come into abutting contact against a stop portion (26b) made on the housing.   A system according to any one of the preceding claims, wherein the shutter (27) extends between upper (27a) and lower (27b) ends which are each provided with a seal (28,29). ) adapted to cooperate sealingly respectively with the upper orifice (26) and the discharge pipe (24).   10. The system of claim 9, wherein the seal (28) of the upper end (27a) of the shutter (27) remains in sealing contact on the same cylindrical surface of the upper orifice (26). of the housing (21) when the shutter (27) is in its emptying position or in its operating position.