[0001] The present invention relates to a filter assembly for air conditioning systems for
vehicles.
[0002] An air conditioning system of a vehicle is generally provided with a filter assembly
positioned between the condenser and the expansion valve. The filter assembly comprises
a container with an inlet and an outlet and a particle filter positioned between the
inlet and the outlet.
[0003] In some known solutions, the filter assembly is obtained in integral form with one
of the distributors of the condensers. In these solutions, the container of the filter
body is provided with a removable cap which closes in sealed fashion an opening of
the container through which can be inserted and extracted a cartridge including the
particle filter. The extractable cartridge can be provided with an extension bearing
a permeable bag containing dehydrator material.
[0004] The document FR-A-2 798 456 describes a closure cap for a tubular container containing
a dehydrator element. The cap is obtained in the form of a cylindrical element which
is guided with freedom of axial displacement in a corresponding hole of the container.
The cap is provided with two sealing o-rings which are inserted into corresponding
annular seats of the cap and which act in sealing contact against an inner cylindrical
wall of the container. An elastic retaining ring engages a circumferential seat formed
on the inner cylindrical wall of the container and prevents the extraction of the
cap from the container.
[0005] In a solution of the type described in the document FR-A-2 798 456 the fluid tightness
is obtained solely by the tangential contact between the o-rings and the inner cylindrical
wall of the container. Any damage to the o-ring would compromise the sealing capability
of the cap and, consequently, of the entire air conditioning system of the vehicle.
[0006] Patent Abstracts of Japan, vol. 2002, no. 11, 6 November 2002 (2002-11-06) & JP 2002
195701 A (Nikkei Nekko KK), 10 July 2002 (2002-07-10) describes a liquid receiver
constituted of a cylindrically formed receiver body, a stopper which is inserted from
a lower opening of the body for blockage of the opening, a filter which is disposed
on the top end surface of the stopper in the body for capturing impurities in a heating
medium which is supplied into the body, and an O-ring which is interposed between
the stopper and the body. The stopper and the filter are integrated into an integration
body by means of synthetic resin.
[0007] U.S. Patent No. 6,446,463 B2 (Bernini Michele) 10 September 2002 (2002-09-10) describes
a filter cartridge in a condenser for an automobile air-conditioning system. The filter
cartridge includes a permeable housing containing a desiccant charge. The housing
is inserted into a header pipe of the condenser. The header pipe is closed by a plug
being part of the filter cartridge.
[0008] The object of the present invention is to provide an enhanced filter assembly which
allows to improve the seal guarantees provided by the cap over time.
[0009] According to the present invention, said object is achieved by a filter assembly
having the characteristics set out in the main claim.
[0010] The characteristics and advantages of the present invention shall become readily
apparent in the detailed description that follows, provided purely by way of non limiting
example, with reference to the accompanying drawings, in which:
- Figure 1 is a partially sectioned perspective view of a filter assembly according
to the present invention,
- Figure 2 is a partially exploded perspective view of the filter assembly of Figure
1,
- Figure 3 is an axial section showing the end portion of the filter assembly of Figures
1 and 2,
- Figure 4 is an axial section in the body of the cap used in the filter assembly according
to the invention,
- Figure 5 is an enlarged detail of the part designated by the arrow V in Figure 4,
and
- Figure 6 is an axial section of a preferred embodiment of an o-ring used in the filter
assembly according to the invention.
[0011] With reference to Figures 1 through 3, the reference 10 designates a filter assembly
for an air conditioning system for vehicles. The filter assembly 10, illustrated only
partially in Figures 1 through 3, comprises a tubular container 12 with the shape
of a cylinder with circular section elongated in the direction of its own axis, preferably
made of aluminium or alloys thereof. The container 12 can be obtained by extrusion
and it is preferably destined to be permanently fastened to a distributor of a condenser.
For this purpose, the container 12 is preferably provided with an integral flange
14 (shown only partially in Figures 1 through 3) with a bearing surface having semi-circular
shape which is destined to be fastened by furnace brazing on the external surface
of the distributor. The container 12 has an end (not shown in the drawings) closed
in permanent fashion, and an opposite end 16 closed in sealed fashion by a removable
cap 18.
[0012] The container 12 of the filter assembly 10 has an internal cylindrical wall 20 with
circular section. The cylindrical wall 20 has a portion 22 with greater diameter near
the end 16. The portion with greater diameter 22 is joined to the cylindrical wall
20 by means of a conical chamfer 24. The portion with greater diameter 22 is provided
with an annular groove 26 for an elastic retaining ring 28 made of metallic material
of the kind commercially known as "Seeger ring".
[0013] The container 12 of the filter assembly 10 in use is inserted between the condenser
and the expansion valve of the air conditioning system of the vehicle. In the cases
in which the condenser is provided with a sub-cooling section, the filter assembly
10 is inserted in series between the condensing section and the sub-cooling section
of the condenser.
[0014] The filter assembly 10 performs the function of expansion tank of the air conditioning
system of the vehicle. It is also provided with a particle filter and with a dehydrator
element.
[0015] To perform the filtering function, inside the container 12 is housed a cartridge
provided with a mesh filter positioned between an inlet and an outlet of the container
12. The cartridge bearing the particle filter is preferably fastened in permanent
fashion to the cap 18 as described in detail in a contemporary patent application
by the same Applicant. Inside the container 12 is also housed a bag 30 made of permeable
material containing a dehydrator material.
[0016] With reference in particular to Figures 3 and 4, the cap 18 comprises a body 32 made
of injection moulded plastic material provided with integral teeth 34 (only one of
which is shown in Figures 3 and 4) which are used for the permanent fastening of the
body of the cap 32 to the body of the filter cartridge, as described in detail in
a contemporary patent application by the same Applicant.
[0017] The body of the cap 32 is constituted by a monolithic element made of injection moulded
plastic material and comprises a cylindrical guiding surface 36 which in use is guided
in the internal cylindrical surface 20 of the container 12. The body of the cap 32
has a cylindrical surface 38 with smaller diameter than the guiding surface 36. Between
the guiding surface 36 and the portion with smaller diameter 38 is formed a step with
a radial surface 40. In the surface 38 is inserted an o-ring 42 which establishes
a sealing contact with the internal cylindrical surface 20 of the container. The body
of the filter cartridge fastened to the body of the cap 32 has a portion 44 (Figures
1-3) which forms a second radial surface 48 parallel to and facing the first radial
surface 40. The radial surfaces 40, 48 and the portion of cylindrical surface 38 included
between said radial surfaces form an annular seat with U-shaped cross section in which
the o-ring 42 is housed.
[0018] According to a preferred embodiment of the present invention, the o-ring 42 can be
obtained as shown in Figure 6, with a lobed cross section having on the outer surface
two seal areas 50 separated from each other by a depression 52. Similarly, the inner
sealing surface of the o-ring 42 has two seal areas 54 mutually separated by a depression
56.
[0019] The cap 18 can also be provided with two o-rings 42 as described in the contemporary
patent application by the same Applicant, mentioned previously. In the version with
two o-rings, each of the two o-rings can have circular cross section or with lobed
section as shown in Figure 6.
[0020] With reference to Figure 4, the guiding surface 36 of the body of the cap 32 terminates,
at the opposite side with respect to the radial surface 40, with a conical chamfer
58 which is destined to engage the conical chamfer 24 formed on the internal surface
20 of the container 12 to form a stop that prevents the cap 18 to be sucked back into
the container 12 when a vacuum is produced inside the air conditioning system. With
reference to Figures 4 and 5, the body of the cap 32 is provided with a continuous
annular lip 60 integral with the body of the cap, which forms a protection element
able to engage with slight interference the surface 22 of the container 12. The protection
lip 60 forms a closure which prevents the entry of contaminants of various kinds in
the seal area between the o-ring 42 and the inner cylindrical wall 20 of the container
12. In particular, the protection lip 60 prevents dust, dirt or potentially corrosive
liquid substances from coming in contact with the o-ring. The lip 60 also performs
a scraping action against the cylindrical surface 22 which removes any dirt which
may have accumulated on the part of surface 22 external to the cap during the extraction
of the cap. Therefore, there is a reduction in the risk that, during the reinsertion
of the cap, traces of dust or dirt may collect on the external surface of the o-ring
42 which could compromise the sealing contact between the o-ring 42 and the surface
20.
[0021] The body of the cap 32 is also provided with a threaded hole 62 with an axis coinciding
with the axis of the body of the cap 32 and formed in an integral central part 64
of the body of the cap 32. The threaded hole 62 can be engaged by a threaded tool
for extracting the cap 18 from the container 12. The extraction of the cap is naturally
possible only after removing the elastic retaining ring 28.
[0022] The threaded hole 62 can also be used to fasten a disk-shaped protecting element
66 (Figures 1-3). The disk-shaped protecting element 66 is provided with a threaded
axial appendage 68 which engages the threaded hole 62 of the body of the cap 32. The
disk-shaped protecting element 66 is preferably provided on its external part with
a hexagonal hole 70 able to be engaged by an Allen wrench to screw and unscrew the
protecting element 66 relative to the body of the cap 32.
[0023] The protecting element 66 has a slightly larger diameter than the diameter of the
internal cylindrical surface 22 of the container 12. Therefore, when the disk-shaped
protecting element 66 is screwed onto the cap 18, a surface 72 of the protecting element
66 comes in contact against a front surface 74 of the container 12 forming a closure
which prevents the entry of dust or contaminants into the seal area of the cap 18.
[0024] The disk-shaped protecting element 66 can be used together with or instead of the
protecting lip 60 formed on the body of the cap 32.
[0025] It is readily apparent that the presence of one or both the protecting elements 60,
66 allows to prevent the entry and the accumulation of contaminants on the internal
wall of the container 12 outside the seal area. Therefore, these contaminants are
prevented from coming in direct contact with the o-ring even during the extraction
and reinsertion of the cap 18. This allows to prevent a deterioration of the sealing
characteristics of the o-ring by effect of contact with contaminants and it also allows
to prevent dust, dirt or other contaminants from being deposited on the outer surface
of the o-ring during the extraction and reinsertion of the cap.
1. A filter assembly for air conditioning systems for vehicles, comprising:
- a tubular container (12) with an internal cylindrical wall (20) open at one end
(16),
- a filter housed in the tubular container (12),
- a cap (18) with a cylindrical wall (36) guided with freedom of axial movement in
the internal cylindrical wall (20) of the container (12) and provided with at least
one circumferential seat (40, 48, 38) in which is housed at least one o-ring (42)
positioned in sealing contact with the inner cylindrical wall (20) of the container
(12),
- an elastic retaining ring (28) engaging a circumferential seat (26) formed on an
end portion (16) of the container (12) and positioned in such a way as to prevent
the extraction of the cap (18) of the container (12),
characterised in that the filter assembly comprises at least one protecting lip (60) formed in integral
fashion with a body of the cap (32) and sized to engage with slight interference a
part (22) of the internal cylindrical wall (20) of the container (12) to prevent the
entry of contaminants in the seal area between the o-ring (42) and the internal cylindrical
wall (20) of the container (12), wherein a corresponding conical chamfer (24) formed
on the internal cylindrical wall (20) of the tubular container (12) is destined to
engage a conical arresting chamfer (58) of the body of the cap (32) to form a stop
for the cap (32), said protecting lip (60) being formed in the immediate vicinity
of the part with greater diameter of the conical arresting chamfer (58).
2. A filter assembly as claimed in claim 1, characterised in that a disk-shaped element (66) is fastened in separable fashion to the cap (18) and able
to form a closure on a front wall (74) of the container (12).
3. A filter assembly as claimed in claim 2, characterised in that the disk-shaped element (66) has a threaded appendage (68) which engages a threaded
hole (62) of the cap (18).
4. A filter assembly as claimed in one or more of the previous claims, characterised in that the o-ring (42) has a lobed cross section with two seal areas (50) separated from
each other by a depression (52).
1. Filteranordnung für Klimaanlagen für Fahrzeuge, die umfasst:
einen röhrenförmigen Behälter (12) mit einer inneren zylindrischen Wand (20), die
an einem Ende (16) offen ist,
einen Filter, der in dem röhrenförmigen Behälter (12) aufgenommen ist,
eine Kappe (18) mit einer zylindrischen Wand (36), die mit Freiheit axialer Bewegung
in der inneren zylindrischen Wand (20) des Behälters (12) geführt wird und mit wenigstens
einer Umfangs-Aufnahme (40, 48, 38) versehen ist, in der wenigstens ein O-Ring (42)
aufgenommen ist, der in dichtendem Kontakt mit der inneren zylindrischen Wand (20)
des Behälters (12) angeordnet ist,
eine elastischen Haltering (28), der in eine Umfangs-Aufnahme (26) eingreift, die
an einem Endabschnitt (16) des Behälters (12) ausgebildet ist, und so angeordnet ist,
dass Herausziehen der Kappe (18) des Behälters (12) verhindert wird,
dadurch gekennzeichnet, dass die Filteranordnung wenigstens eine Schutzlippe (60) umfasst, die integral mit einem
Körper der Kappe (32) ausgebildet und so bemessen ist, dass sie mit geringfügiger
Überlagerung mit einem Teil (22) der inneren zylindrischen Wand (20) des Behälters
(12) in Eingriff kommt, um das Eindringen von Verunreinigungen in den Dichtungsbereich
zwischen dem O-Ring (42) und der inneren zylindrischen Wand (20) des Behälters (12)
zu verhindern, wobei eine entsprechende konische Abschrägung (24), die an der inneren
zylindrischen Wand (20) des röhrenförmigen Behälters (12) ausgebildet ist, dazu bestimmt
ist, mit einer konischen Arretierabschrägung (58) des Körpers der Kappe (32) in Eingriff
zu kommen, um einen Anschlag für die Kappe (33) zu bilden, wobei die Schutzlippe (60)
in der unmittelbaren Nähe des Teils der konischen Arretierabschrägung (58) mit größerem
Durchmesser ausgebildet ist.
2. Filteranordnung nach Anspruch 1, dadurch gekennzeichnet, dass ein scheibenförmiges Element (66) abtrennbar an der Kappe (18) befestigt ist und
einen Verschluss an einer Vorderwand (74) des Behälters (12) bilden kann.
3. Filteranordnung nach Anspruch 2, dadurch gekennzeichnet, dass das scheibenförmige Element (66) einen Gewindeansatz (68) aufweist, der in ein Gewindeloch
(62) der Kappe (18) eingreift.
4. Filteranordnung nach einem oder mehreren der vorangehenden Ansprüche, dadurch gekennzeichnet, dass der O-Ring (42) einen gelappten Querschnitt mit zwei Dichtungsbereichen (50) hat,
die durch eine Vertiefung (52) voneinander getrennt sind.
1. Ensemble filtrant pour des systèmes de climatisation de véhicules automobiles, comprenant
:
- un réservoir tubulaire (12) avec une paroi cylindrique interne (20) ouverte à une
extrémité (16),
- un filtre logé dans le réservoir tubulaire (12),
- un bouchon (18) avec une paroi cylindrique (36) guidé avec une liberté de mouvement
axial dans la paroi cylindrique interne (20) du réservoir (12) et muni d'au moins
un siège circonférentiel (40, 48, 38) dans lequel est logé au moins un joint torique
(42) positionné de manière à établir un contact étanche avec la paroi cylindrique
interne (20) du réservoir (12),
- une bague de retenue élastique (28) en prise avec un siège circonférentiel (26)
formée sur une portion d'extrémité (16) du réservoir (12) et positionnée de manière
à empêcher l'extraction du bouchon (18) du réservoir (12),
caractérisé en ce que l'ensemble filtrant comprend au moins un rebord de protection (60) formé de manière
solidaire avec un corps du bouchon (32) et dimensionné de manière à être en prise,
avec un léger serrage, avec une partie (22) de la paroi cylindrique interne (20) du
réservoir (12) pour empêcher que des contaminants ne pénètrent dans la zone de joint
entre le joint torique (42) et la paroi cylindrique interne (20) du réservoir (12),
un chanfrein conique (24) correspondant formé sur la paroi cylindrique interne (20)
du réservoir tubulaire (12) étant destiné à entrer en prise avec un chanfrein d'arrêt
conique (58) du corps du bouchon (32) pour former une butée pour le bouchon (32),
ledit rebord de protection (60) étant formé à proximité immédiate de la partie du
chanfrein d'arrêt conique (58) présentant un plus grand diamètre.
2. Ensemble filtrant selon la revendication 1, caractérisé en ce qu'un élément en forme de disque (66) est attaché de manière séparable au bouchon (18)
et est capable de former une fermeture sur une paroi avant (74) du réservoir (12).
3. Ensemble filtrant selon la revendication 2, caractérisé en ce que l'élément en forme de disque (66) a un appendice fileté (68) en prise avec un orifice
fileté (62) du bouchon (18).
4. Ensemble filtrant selon l'une ou plusieurs des revendications précédentes, caractérisé en ce que le joint torique (42) présente une section transversale à lobes avec deux zones de
joint (50) séparées l'une de l'autre par un creux (52).