阅读说明：本技术 带有接合构件的过滤器滤芯 (Filter cartridge with engagement member ) 是由 乔治·吉龙迪 于 2019-07-17 设计创作，主要内容包括：本发明涉及一种车辆的流体过滤器组(5)的过滤器滤芯(1),其中所述过滤器组(5)包括过滤器主体(6)和接合装置(3),该接合装置包括过滤器滤芯(1)中所包括的滤芯接合构件(4)和过滤器主体(6)中所包括的主体接合构件(7)；所述滤芯接合构件(4)和主体接合构件(7)分别成形为可通过相互轴向运动而在接合构造和脱离构造之间进行构造。过滤器滤芯(1)在轴向端部处包括端板(2),所述滤芯接合构件(4)布置在该端板上,该滤芯接合构件在高度上延伸并且围绕所述滤芯轴线布置。滤芯接合构件(4)包括至少两个卡阻组(40),其中每个卡阻组(40)包括至少一个卡阻元件(41)。每个卡阻元件(41)包括杆部(42)和齿(43),该齿从杆部(42)沿横向方向(即沿周向方向或切向方向)突出,从而限定接合底切部(45)。在卡阻构造中,齿(43)容纳在特定成形的主体接合构件(7)中所包括的容纳区域(73)中,并且包括在特定成形的主体接合构件(7)中的接合突起部(75)容纳在底切部(45)中。其中,在过滤器滤芯(1)和主体(6)之间的轴向运动中,每个卡阻元件(40)的杆部(42)在接合突起部(75)对齿(43)的作用下在径向方向和/或横向方向上弹性屈服。(The invention relates to a filter cartridge (1) of a fluid filter group (5) of a vehicle, wherein the filter group (5) comprises a filter body (6) and an engagement means (3) comprising a cartridge engagement member (4) comprised in the filter cartridge (1) and a body engagement member (7) comprised in the filter body (6); the cartridge engagement member (4) and the body engagement member (7) are respectively shaped to be configurable between an engaged configuration and a disengaged configuration by mutual axial movement. The filter cartridge (1) comprises an end plate (2) at an axial end, on which end plate the cartridge engagement member (4) is arranged, which extends in height and is arranged around the cartridge axis. The cartridge engagement member (4) comprises at least two jamming sets (40), wherein each jamming set (40) comprises at least one jamming element (41). Each blocking element (41) comprises a shank (42) and a tooth (43) projecting from the shank (42) in a transverse direction, i.e. in a circumferential or tangential direction, so as to define an engagement undercut (45). In the jamming configuration, the teeth (43) are received in receiving areas (73) included in the specially shaped body engaging member (7), and engaging protrusions (75) included in the specially shaped body engaging member (7) are received in the undercuts (45). Wherein, in an axial movement between the filter cartridge (1) and the body (6), the stem (42) of each jamming element (40) is elastically yielding in a radial direction and/or in a transverse direction under the action of the engagement projection (75) against the tooth (43).)

1. A filter cartridge (1) of a fluid filter group (5) of a vehicle, wherein the filter group (5) extends along a main axis (X-X) and further comprises:

i) a filter body (6) engageable with the filter cartridge (1) and preferably fluidly connectable therewith;

ii) an engagement device (3) comprising a cartridge engagement member (4) comprised in the filter cartridge (1) and a body engagement member (7) comprised in the filter body (6), the cartridge engagement member and the body engagement member each being specially shaped such as to be configurable by mutual movement in an axial direction between an engaged configuration, in which the filter body (6) and the filter cartridge (1) are integrally engaged with each other, and a disengaged configuration, in which the filter body (6) and the filter cartridge (1) are disengaged from each other;

wherein the filter cartridge (1) extends along a cartridge axis (Z-Z) and comprises an end plate (2) at an axial end, on which end plate the cartridge engagement member (4) is arranged, which extends in height parallel to the cartridge axis (Z-Z) and is arranged around the cartridge axis (Z-Z);

wherein the cartridge engagement member (4) comprises at least two locking groups (40), wherein each locking group (40) comprises at least one locking element (41), wherein each locking element (41) comprises a stem (42) and a tooth (43) provided at an axial end of the stem (42) and protruding therefrom in a transverse direction, i.e. in a circumferential or tangential direction, defining an engagement undercut (45) together with the stem (42), such that in a locked configuration the tooth (43) is housed in a housing zone (73) comprised in a specifically shaped body engagement member (7) and an engagement projection (75) comprised in a specifically shaped body engagement member (7) is housed in the engagement undercut (45);

wherein each tooth (43) extends towards the facing locking group (40);

wherein, in an axial movement between the filter cartridge (1) and the filter body (6), the stem (42) of each locking element (40) is elastically yielding in a radial direction and/or in a transverse direction under the action of the engagement projection (75) on the tooth (43).

2. The filter cartridge (1) of claim 1, wherein each tooth (43) comprises an inclined edge (431) so as to have a tapered shape in a transverse direction, wherein the inclined edge (431) faces the engagement undercut (45), wherein the inclined edge (431) is adapted to allow the respective tooth (43) to slide on the respective engagement projection (75).

3. The filter cartridge (1) of any one of the preceding claims, wherein the cartridge engagement member (4) comprises a cartridge centering element (48) adapted to guide the filter cartridge (1) in an axial direction for insertion onto the filter body (6) and thereby engage a body centering element (78) comprised in the body engagement member (7).

4. The filter cartridge (1) of claim 3, wherein the cartridge centering element (48) comprises a cavity (480) extending in an axial direction, in which a centering body (780) comprised in the body centering element (7) slides.

5. The filter cartridge (1) of claim 3 or 4, wherein the cartridge centering element (48) is located between the locking groups (40).

6. A filter cartridge (1) according to any one of the preceding claims, wherein each locking group (40) comprises two locking elements (41) in which two teeth (43) extend in two opposite transverse directions.

7. A filter cartridge (1) according to claim 6, wherein the two locking elements (41) of each locking group (40) are integrally coupled to each other in axial direction along a respective stem (42).

8. A filter cartridge (1) according to claim 6, wherein the two locking elements (41) comprised in each locking group (40) are angularly spaced apart from each other.

9. The filter cartridge (1) according to any one of the preceding claims, wherein the cartridge engagement member (4) has a planar extension on an imaginary circumferential plane, the centre of which lies on the cartridge axis (Z-Z).

10. A filter cartridge (1) according to any one of the preceding claims, wherein the cartridge engagement member (4) comprises three or four locking groups (40).

11. The filter cartridge (1) according to any one of the preceding claims, wherein the cartridge engagement member (4) is located in a peripheral position of the endplate (2), i.e. in a distal position with respect to the cartridge axis (Z-Z) at a peripheral edge (21) of the endplate (2).

12. A filter cartridge (1) according to any one of the preceding claims, comprising:

-a filter medium (11), preferably of the hollow cylindrical type, radially passable by the fluid and extending along the cartridge axis (Z-Z);

-a first filter plate (111) and a second filter plate (112), each located at an axial end of the filter medium (11);

wherein the first filter plate (111) or the second filter plate (112) corresponds to the end plate (2).

13. A filter body (6) of a fluid filter group (5) of a vehicle, wherein the filter group (5) extends along a main axis (X-X) and further comprises:

i) a filter cartridge (1) according to any one of the preceding claims;

ii) an engagement device (3) comprising a cartridge engagement member (4) comprised in the filter cartridge (1) and a body engagement member (7) comprised in the filter body (6), the cartridge engagement member and the body engagement member each being specially shaped such that by mutual movement in an axial direction they are configurable between an engaged configuration, in which the filter body (6) and the filter cartridge (1) are integrally engaged with each other, and a disengaged configuration, in which the filter body (6) and the filter cartridge (1) are disengaged from each other.

14. Filter body (5) according to claim 13, wherein the body engagement member (7) comprises, at each locking group (40) of the filter cartridge (1), a housing area (73) adapted to house a respective tooth (43) in an engaged configuration, wherein the body engagement member (7) further comprises an engagement projection (75) projecting in a radial direction and specifically shaped to be housed in the engagement undercut (45) of the respective locking group (40), wherein the engagement projection (75) is adapted to perform an action on the respective tooth (43) to elastically move the stem of the respective locking element (40) in a radial and/or transverse direction.

15. Filter body (5) according to claim 14, wherein the engagement projection (75) comprises a first inclined portion (751) and a second inclined portion (752) respectively inclined at two opposite inclination angles with respect to the main axis X-X and arranged axially in succession so that the first inclined portion (751) exerts a thrust action on the respective locking element (41) in the engagement operation and the second inclined portion (752) exerts a thrust action on the respective locking element (41) in the disengagement operation.

16. A filter body (6) as claimed in claims 13 to 15 wherein the filter body (6) comprises a filter chamber (60) in which the filter cartridge (1) can be received, wherein the body engagement member (7) is made on an inner wall of the filter chamber (60).

17. Filter body (6) according to claim 16, comprising two half-shell elements (61, 62) adapted to define the filtering chamber (60).

18. A fluid filter group (5) of a vehicle, wherein the filter group (5) extends along a main axis (X-X) and comprises:

-a filter cartridge (1) according to any one of claims 1 to 12;

-a filter body (6) according to any one of claims 13 to 17;

-an engagement device (3) comprising a cartridge engagement member (4) comprised in the filter cartridge (1) and a body engagement member (7) comprised in the filter body (6), the cartridge engagement member and the body engagement member each being specifically shaped such that by mutual movement in an axial direction a configuration can be made between an engaged configuration, in which the filter body (6) and the filter cartridge (1) are integrally engaged with each other, and a disengaged configuration, in which the filter body (6) and the filter cartridge (1) are disengaged from each other.

Technical Field

The present invention relates to a filter cartridge for a fluid filter group. Furthermore, the invention relates to a filter body comprised in said fluid filter group and adapted to engage said filter cartridge. Furthermore, the invention relates to a fluid filter group comprising said filter cartridge and said filter body.

The invention is preferably used in the automotive field. In particular, the environment in which the invention is in fact situated is a fluid filtration system, in particular a fluid, liquid or gas, which is required for the operation of a motor vehicle. In other words, the fluid filter group according to the invention and the component comprising the fluid filter group may be applied to water (or aqueous solution) in an air circuit, an oil circuit, a fuel circuit and/or a blow-by gas ventilation circuit comprised in a vehicle.

Systems for filtering fluids for application in automobiles are known in the art.

Such known filtering systems comprise one (or more) filter cartridges integrally connected to a filter body which is fluidly connected to a respective fluid circulation system. Depending on the particular application of the filter cartridge, the filter set and the filter body have different geometries and physical properties.

However, in any embodiment of the filter group comprising a filter cartridge, said filter cartridge is intended to be replaceable according to the needs of the motor vehicle, for example in the case of necessary maintenance.

A major problem of the known filter systems is therefore to make the engagement and disengagement operations of the filter cartridge and the filter body simple and intuitive. In addition to this need, there is also a need for a jamming configuration in which the filter cartridge and the filter body are coupled to each other and which ensures that there is no risk of undesired separation between the parts over time.

In the prior art, solutions of filtering systems are known which allow mutual engagement between the filter cartridge and the filter body, which require complex engagement and/or disengagement operations, and in some cases additional dedicated components, such as safety plugs.

Disclosure of Invention

It is therefore an object of the present invention to provide a fluid filter group which ensures a safe jamming of the filter cartridge to its respective filter body, but which also allows simple and intuitive engagement and disengagement operations.

This object is achieved by a filter cartridge according to claim 1 and a filter body according to claim 13. This is also achieved by a filter group according to claim 18. The dependent claims show preferred embodiment variants with further advantageous aspects.

Drawings

Further characteristics and advantages of the invention will become apparent, in any case, from the following description of preferred embodiments, given by way of non-limiting example with reference to the accompanying drawings, in which:

fig. 1 shows a perspective view of the various components of a filter group according to the invention and according to a first preferred embodiment;

fig. 2a, 2b and 2c show three cross-sectional views of the filter group shown in fig. 1 in several separate joining steps, respectively;

fig. 3 and 3a show a side view and a perspective view, respectively, of a filter cartridge according to the invention, which is included in the filter group shown in fig. 1;

FIG. 4 shows a perspective view of the various components of a filter group according to the invention and according to a second preferred embodiment;

fig. 5a, 5b and 5c show three cross-sectional views of the filter group shown in fig. 4, respectively, in several separate joining steps;

fig. 6', 6 "and 6a show two side views and a perspective view, respectively, of a filter cartridge according to the invention, comprised in the filter group shown in fig. 4;

fig. 7', 7 "and 7a show two side views and a perspective view, respectively, of a filter cartridge according to the invention and according to another preferred embodiment.

Detailed Description

In the accompanying drawings, reference numeral 1 denotes a filter cartridge according to the invention. According to the figures and the invention, reference numeral 5 denotes the entire fluid filter group comprising said filter cartridge 1. Furthermore, the filter body comprised in the filter group 5 is indicated as a whole by reference numeral 6.

As shown in the example of the figures, the fluid filter group 5 extends in a main axial direction, in particular along a main axis X-X.

According to the invention, the fluid filter group 5 comprises a filter cartridge 1 (described in detail below) and a filter body 6 (described in detail in turn). Preferably, said two components are arranged along said main axis X-X.

According to the invention, the fluid filter group 5 also comprises special engagement means 3 adapted to allow mutual engagement and disengagement of the filter cartridge 1 and the filter body 6 along said main axis X-X.

As described and visible in detail in the accompanying drawings, said engagement means 3 comprise elements specially made on the filter cartridge 1 and elements specially made on the filter body 6: in practice, the engagement means comprise a cartridge engagement member 4 included in the filter cartridge 1 and a body engagement member 7 included in the filter body 6.

As described below and shown in the drawings, the cartridge engagement member 4 and the body engagement member 7 are specifically shaped to engage with each other in an engaged configuration in which the filter body 6 and the filter cartridge 1 are integrally engaged with each other, and a disengaged configuration in which the filter body 6 and the filter cartridge 1 are disengaged from each other, respectively.

In particular, the cartridge engagement member 4 and the body engagement member 7 are each particularly shaped so as to be able to configure the aforesaid configuration by means of a mutual axial movement between the filter body 6 and the filter cartridge 1.

In other words, the filter cartridge 1 and the filter body 6 are mutually engaged in an axial direction along the main axis X-X. In other words, the filter body 6 and the filter cartridge 1 can be engaged and disengaged from each other according to the plug-and-socket principle (for example, as shown in fig. 2a, 2b and 2c with respect to the first embodiment, and in fig. 5a, 5b and 5c with respect to the second embodiment).

According to the invention, the filter cartridge 1 extends along a cartridge axis Z-Z. Preferably, in the jamming configuration, the cartridge axis Z-Z coincides with the main axis X-X.

In an embodiment of the fluid filter group 5 comprising a plurality of filter cartridges 1, each filter cartridge 1 extends along a cartridge axis Z-Z oriented parallel to the axis X-X, according to the invention.

Furthermore, according to the invention, the filter cartridge 1 comprises, at its axial ends: the filter cartridge engagement member 4 is placed on the end plate 2 and extends in height parallel to the filter cartridge axis Z-Z; in particular, the cartridge engagement member 4 is disposed about the cartridge axis Z-Z.

Preferably, the filter cartridge 1 comprises a filter medium 11 extending along a cartridge axis Z-Z and comprising a first filter plate 111 and a second filter plate 112 placed at axial ends of the filter medium 11, respectively. Preferably, the first and second filter plates 111 and 112 are welded to the axial ends of the filter media 11. Preferably, one of the first and second filter plates 111 and 112 corresponds to the end plate 2 accommodating the cartridge engagement member 4.

According to a preferred embodiment, the filter medium 11 is hollow cylindrical and is radially passable by the fluid. Preferably, the first filter plate 111 and/or the second filter plate 112 comprise dedicated through holes for the fluid to flow through.

The present invention is not limited to a particular geometry of the endplate 2 and cartridge engagement member 4, except for the features described below.

According to a preferred embodiment, the endplate 2 includes a cartridge engagement member 4 that is integrally formed, e.g., the endplate 2 and the cartridge engagement member 4 are co-molded as a single body.

According to the invention, the cartridge engagement member 4 comprises at least two jamming sets 40.

Each jamming group 40 comprises at least one jamming element 41 adapted to engage a specially shaped portion of the body engaging member 7.

In more detail, each blocking element 41 comprises a stem (stem)42 and at least one tooth 43.

The stem 42 extends from the end plate 2.

The teeth 43 are located at the axial end of the stem portion 42 remote from the end plate 2.

The teeth 43 project from the stem 42 so as to define, with the stem, an engagement undercut 45.

The teeth 43 project from the stem 42 in a transverse direction (i.e. in a circumferential or tangential direction with respect to the cartridge axis Z-Z).

Thus, according to the invention, the tooth 43 and the stem 42 define the engagement undercut 45 in such a way that, in the jamming configuration, the tooth 43 is housed in the housing zone 73 comprised in the specially shaped body engagement member 7 and the engagement projection 75 comprised in the specially shaped body engagement member 7 is housed in the undercut 45.

According to some preferred embodiment variants, the housing area 73 is shaped in particular to house the entire jamming element 41. In other embodiment variants, the receiving region 73 is specifically shaped to receive the entire jamming group 40.

According to the invention, each tooth 43 extends towards the facing jamming group 40. According to the invention, each tooth 43 extends in the circumferential direction towards the facing jamming group 40, preferably following the outer contour of the end plate.

In a preferred embodiment, two adjacent jamming sets 40 have respective teeth 43 that extend laterally toward each other. In other words, the angularly continuous teeth 43 extend in opposite directions. In other words, the angularly consecutive teeth 43 extend in opposite directions to define respective engagement undercuts 45, which face each other along the outer contour of the end plate.

According to the invention, during the axial movement between the filter cartridge 1 and the body 6, the latter being mutually engaged or disengaged, the stem 42 of each jamming element 40 is elastically yielding in the radial direction and/or in the transverse direction.

In particular, said elastic yielding is due to the action of the engagement projection 75 on the tooth 43. In other words, the stem 42 acts in a radial direction and/or in a transverse direction (i.e. circumferential or tangential direction), which causes relative elastic yielding and relative movement thereof.

Furthermore, according to a preferred embodiment, each tooth 43 comprises an inclined edge 431 so as to have a tapered shape in the transverse direction.

According to a preferred embodiment, the inclined edge 431 faces the undercut 45. In other words, the undercut 45 is wider at a distal position of the end plate 2 than at a proximal position of the end plate 2.

Preferably, therefore, the undercut is defined inferiorly by the end plate 2 and superiorly by the inclined edge 431 of the tooth 43.

According to a preferred embodiment, the inclined edges 431 are adapted to allow the respective tooth 43 to slide on the respective engagement projection 75. According to the invention, the engagement projection 75 is again shaped in a complementary manner so as to be accommodated in the undercut 45 by way of a shaped coupling, thus again presenting an inclined portion with an inclined edge 431.

According to a preferred embodiment, the cartridge engagement member 4 comprises a cartridge centering element 48 adapted to engage with a body centering element 78 made on the filter body 6, so as to guide the insertion of the filter cartridge 1 onto the body 6 in an axial direction.

According to a preferred embodiment, said centering element 48 comprises a cavity 480 extending in an axial direction, in which a centering body 780 made on the filter body 6 and comprised in the body centering element 78 slides.

According to a preferred embodiment, the centering elements 48 are located between the jamming sets 40. For example, the number of centering elements 48 corresponds to the number of angular spaces defined between the jamming sets 40.

According to a preferred embodiment, each jamming group 40 comprises two jamming elements 41, wherein two teeth 43, i.e. each part of the respective jamming element 41, extend in opposite lateral directions. Preferably, the teeth 43 of each blocking element 41 extend circumferentially in opposite directions.

According to a preferred embodiment, the two jamming elements 41 of each jamming group 40 are integrally coupled to each other in the axial direction along a respective stem 42. In other words, the blocking group 40 is substantially T-shaped or mushroom-shaped.

According to an embodiment variant, the two jamming elements 41 in each jamming group 40 are alternatively angularly spaced apart from each other. In other words, the jamming groups 40 have substantially the shape of two inverted "L" presenting respective stems 42 extending parallel to each other.

According to a preferred embodiment, a centered cavity 480 is defined in the space between two adjacent stems 42.

According to a preferred embodiment, the cartridge engagement member 4 has a planar extension on an imaginary circumferential plane, the centre of which is on the cartridge axis Z-Z.

In other words, the cartridge engagement member 4 lies on an imaginary plane that extends circumferentially concentric with the axis Z-Z. In other words, both the jamming group 40 and the centering element 48 extend in a planar manner.

According to the invention, the cartridge engagement member 4 comprises three, four or a greater number of jamming sets 40. The cartridge engagement members 4 are placed at equiangular intervals from each other.

According to a preferred embodiment, the cartridge engagement member 4 is arranged in a peripheral position of the end plate 2.

In other words, the cartridge engagement member 4 is in a distal position relative to the cartridge axis Z-Z at the peripheral edge 21 of the endplate 2.

According to a preferred embodiment, there are no obstacles in the centre of the endplate 2, so that it is possible to envisage the presence of any possible housing of components to accommodate other components comprised in the filter body 6, or to envisage the presence of fluid holes through which the fluid to be filtered or already filtered can flow freely.

As mentioned above, the invention also relates to a filter body 6 of a fluid filter group 5 of a vehicle, wherein said filter group 5 extends along a main axis X-X, and further comprises a filter cartridge 1 according to the above description, comprising an engagement means 3 according to the above description.

In other words, the filter body 6 is adapted to comprise a body engagement member 7, which is correspondingly specially shaped so as to be configurable by a mutual movement in axial direction between an engaged configuration, in which the filter body 6 and the filter cartridge 1 are integrally engaged with each other, and a disengaged configuration, in which the filter body 6 and the filter cartridge 1 are disengaged from each other.

According to a preferred embodiment, the body engagement means 7 comprise, at each jamming group 40 belonging to the filter cartridge 1, a housing area 73 suitable for housing, in the engaged configuration, a respective tooth 43.

According to an embodiment variant, the housing area 73 is shaped in particular to house the entire jamming element 41.

According to another embodiment variant, the housing zone 73 is shaped in particular to house the entire jamming group 40.

According to an embodiment variant, the housing zone 73 is made on the inner surface of the filter body 6 to remain aligned with the outer periphery of the end plate 2.

Preferably, the body engagement member 7 further comprises an engagement projection 75 projecting in a radial direction and specifically shaped to be received in the undercut 45 of the respective jamming group 40.

In other words, according to the present invention, each tooth 43 is adapted to engage with the engagement projection 75 in the axial direction, thereby preventing undesired axial movement between the filter cartridge 1 and the filter body 6.

Said engagement projections 75 are adapted to perform an action on the respective teeth 43 to elastically move the stem 42 of the respective blocking element 40 in a radial and/or transverse direction.

In other words, in order to engage and disengage between the filter cartridge 1 and the filter body 6, the teeth 43 are forced to pass or pass the engagement projections 75. This is possible since the stem 42 is adapted to be elastically flexible in a radial direction (towards the X-X axis, or with respect to the cartridge axis Z-Z) and/or in a transverse direction (in a circumferential or tangential direction with respect to the axis X-X or with respect to the cartridge axis Z-Z).

According to a preferred embodiment, each tooth 43 is in fact adapted to slide on the engagement projection 75. Preferably, the engagement projection 75 comprises a first inclined portion 751 and a second inclined portion 752, respectively inclined at two opposite inclination angles with respect to the axis X-X.

Preferably, the first and second inclined portions 751, 752 are positioned axially consecutively to each other.

Preferably, the first and second inclined portions 751, 752 are arranged so that the first inclined portion 751 exerts a thrust action on the respective blocking element 41 in the engagement operation, while the second inclined portion 752 exerts a thrust action on the respective blocking element 41 in the disengagement operation.

According to a longitudinal section, the first and second inclined portions 751, 752 are inclined with respect to the axis X-X, respectively.

In order to facilitate the sliding of the teeth 43 on the respective engagement projections, the first and/or second inclined portions 751, 752 also have an inclination with respect to a tangent of the circumference of the end plate 2, if seen according to a transversal section with respect to the axis X-X.

According to a preferred embodiment, the first and second inclined portions 751, 752 are axially separated by a flat portion 750 having a constant radial thickness.

According to a preferred embodiment, the engagement projection 75 comprises a stop which separates the wall of the filter body 6 from which the engagement projection 75 extends from the second inclined portion 752. In other words, the second inclined portion 752 has a surface on which the teeth 43 slide, which is spaced in a radial direction from the wall of the filter body 6 due to the presence of said stop.

In other words, in order to disengage the filter cartridge 1 from the filter body 6, the axial pulling action between these two parts must be such as to move past the stop and cause the inclined edge 431 to slide on the engagement projection 75.

In other words, the purpose of the stop is to prevent the tooth 43 from sliding undisturbed on the second inclined portion 752, which the tooth must be forced to pass over at the first moment.

According to a preferred embodiment, the filter body 6 comprises a filter chamber 60 in which the filter cartridge 1 can be housed, wherein said body engagement member 7 is made on the inner wall of the filter chamber 60.

Preferably, the filter body 6 comprises two half-shell elements 61, 62 adapted to define the filter chamber 60, wherein the filter element group 1 is joined to one of the two half-shell elements 61.

Preferably, the two half-shell elements 61, 62 can be mutually engaged by means of a rotational movement, for example by a threaded connection.

Preferably, once the filter element group 1 has been joined to the half-shell 61 made with the body joining elements 7, the two half-shell elements 61, 62 can be joined to each other.

According to the present invention, the axial pushing force action (i.e., engagement force) required to achieve engagement between the filter cartridge 1 and the filter body 6 and the axial pulling force action (i.e., disengagement force) required to achieve disengagement between the filter cartridge 1 and the filter body 6 are related to the geometry and thickness of the click member 40 and the engagement projection 75. Preferably, the disengagement force is different from the engagement force. In practice, the first section 751 is inclined at an angle different from the angle of inclination of the second section 752. Preferably, the disengagement force is greater than the engagement force. In practice, the angle of inclination of the first section 751 is smaller than the angle of inclination of the second section 752.

The invention also relates to a fluid filter group 5 of a vehicle comprising a filter body 6 as described above, in which a filter element group 1 as described above can be accommodated. The filter group 5 then comprises engagement means 3, such as the ones described above, adapted to allow mutual engagement of the filter body 6 and the filter element group 1.

Innovatively, the filter cartridge, filter body, fluid filter group in a vehicle described above fully satisfy the objects of the present invention and overcome the typical disadvantages of the prior art.

Advantageously, the operations of assembly and disassembly of the filter cartridge-filter body are, in fact, very simple, intuitive and instructive.

Advantageously, in the jamming configuration, the engagement means ensure that the axial position of the two parts remains fixed over time. Advantageously, the engagement between the filter body and the filter cartridge, and in particular the mutual fluid engagement between the two, is ensured, so that accidental release in the event of overpressure, vibration or shock is prevented.

Advantageously, the axial jamming action is performed in an effective and reliable manner by means of an edge provided on the underside of the transverse portion of each tooth.

Advantageously, thanks to the inclined edges, the axial jamming action is effectively unloaded in an effective manner onto the complementary part provided on the filter body.

Advantageously, the geometry of the coupling system is simplified, thus simplifying the dimensions of the teeth and their respective seats, and advantageously minimizing the complexity of the mould for producing the engaging means and the related costs.

Thus, another advantage of the present invention is that it cannot be installed on filter bodies that are not equipped with filter cartridges of the aforementioned jamming sets. In other words, in a filter group, it is not possible to use, for example, conventional filter cartridges, thereby ensuring the use of, for example, quality filter cartridges provided by the manufacturer during maintenance operations.

Advantageously, the axial dimension of the engagement means is reduced, so that the filtering surface of the filter medium is maximized, thereby meeting the requirements of a specific filter group.

Advantageously, the described engagement means are easy to implement on filter cartridges of different sizes and diameters.

Advantageously, the radial dimension of the engagement means is reduced and can therefore be provided both on filter cartridges affected by radial flow and on filter cartridges affected by axial flow.

Advantageously, the engagement means on the filter body are configured as engagement legs protruding in a radial direction from an inner surface of the body. This solution makes it possible to avoid the use of particularly complex fastening seats, thus simplifying the relative mold and filter body manufacturing processes.

It is clear that a person skilled in the art may make modifications to the filter cartridge, to the filter body, to the fluid filter group or to the assembly method, in order to satisfy contingent requirements, all of which are included within the scope of protection defined by the following claims.

List of reference numerals:

1 Filter element

2 end plate

3 joining device

4 Filter element joint component

5 fluid filter group

6 Filter body

7 body joint member

11 Filter media

21 peripheral edge

40 blocking group

41 jamming element

42 rod part

43 teeth

45 undercut

48 filter core centering element

60 filtering chamber

61 first half shell

62 second half-shell

73 receiving area

75 engaging projection

78 body centering element

111 first filter plate

112 second filter plate

431 inclined edge

480 cavity

750 planar portion

751 first inclined part

752 second inclined part

780 centering body

X-X principal axis

Z-Z filter element axis