FR3039617B1 - TRANSMISSION HOUSING AND TRANSMISSION MODULE PROVIDED WITH SUCH A HOUSING - Google Patents

Abstract

Transmission housing, in particular for a seat adjustment actuator fitted to a motor vehicle and having a base body (12) provided with a peripheral wall (15) and a housing cover (11) and a mechanism clipping device (20) for locking the lid. The radially inner side of the peripheral wall has latching members (22) which can engage with complementary latching members (24) of the outer radial wall (14) of the housing cover (11).

Description

Field of the invention

The present invention relates to a transmission housing, in particular for a seat adjustment actuator equipping a motor vehicle and having a housing base body provided with a peripheral wall and a housing cover and a mechanism clip to lock the housing cover to the base body. The invention also relates to a transmission module equipped with such a housing.

State of the art

The known vehicle seat actuator transmission housings consist of a housing base body, cup-shaped with a cover. Different solutions exist to attach the cover to the base body. In a known manner, for example, the cover is fixed to the base body of the housing by means of screws and / or by hooks.

DE 10 2007 044 351 A1 discloses a transmission housing whose cover is fixed to the base body only by hooks cap. The hooks of the base body of the housing protrude from the peripheral wall in the axial direction. The housing cover has outwardly oriented spring tabs in the radial direction. These tabs are distributed at the periphery and protrude radially from the peripheral wall. This solution avoids the screw connections, but these links by clipping create additional radial and axial space.

Purpose of the invention

The object of the present invention is to develop an optimized transmission case that is simple to manufacture and assemble.

DESCRIPTION AND ADVANTAGES OF THE INVENTION To this end, the invention relates to a transmission housing, in particular for a seat adjustment actuator equipping a motor vehicle and having a housing base body provided with a peripheral wall and a a housing cover and an engagement mechanism for locking the housing cover to the base body, said transmission housing being characterized in that the radially inner side of the peripheral wall has latching elements which can cling to complementary fastening elements of the outer radial wall of the housing cover.

The transmission housing according to the invention and its drive unit as defined above have the advantage, vis-à-vis the state of the art, that the attachment elements and the complementary coupling elements of the Gear box reduce the axial height by about the thickness of the axial cover. The radial extension of the peripheral wall is also reduced because the most complete bonding connection is located radially inside the peripheral wall. This reduces the mounting space required for the "customer" interface for the mounting flange. Any additional connecting element or additional mounting step is avoided to close the transmission housing.

According to another feature, as the outer diameter of the transmission cover is smaller than the inner diameter of the peripheral wall (independently of the complementary latching elements) the housing cover can be completely housed in the base body of the housing so that that the cover does not protrude radially from the peripheral wall.

To transport the transmission module, the housing cover protrudes axially from the peripheral wall. But, the drive unit is attached to a flange so that the surface of the cover can be driven axially until the peripheral wall is flush with the attachment flange. The axial space thus remains limited to the axial extension of the peripheral wall of the base body of the housing.

By forming gripping elements axially spaced apart from the front surface of the peripheral wall and that of the housing cover, the snap connection is located completely in the housing and does not appear from the outside. Such a hidden attachment linkage is also feasible so that it can open without destruction. From the point of view of the manufacturing technique, the fastening elements can be made as attachment snaps and complementary latches respectively in one piece with the base body and the housing cover, in particular by injection of plastic material. The simple geometry in the form of hooking nose also allows a very simple and economical realization of the injection mold. The choice of the thickness of the material of the housing cover and the peripheral wall makes it possible to adjust the radial elasticity of the attachment elements and the complementary fastening elements.

According to a preferred development, the fastening elements and the complementary fastening elements extend over a segment of circle of at least 30 °. There are, for example, two radially opposed gripping elements and complementary fastening elements which extend substantially in an angular range of 80 ° to 100 °. Due to their large peripheral extension, the latches have a very small overlap in the radial direction, which significantly reduces the force required for mounting the lid.

The resilient embodiment of the radial wall of the cover or the peripheral wall in the region of radial overlap of the attachment surfaces between the attachment spigots and the complementary attachment spigots is adapted so that the transmission housing is sufficiently solid.

Optionally, there may be radial passages, axially open in the radial outer wall of the housing cover, which increases the radial mobility of the outer radial wall.

By forming axially oriented recesses in the radial outer wall or in the peripheral wall, it will be possible to slide the fastening elements and the complementary fastening elements, axially relative to each other after their attachment. This makes it possible to use the coupling connection on the one hand as protection for the transport of the transmission module and, on the other hand, when the drive means are fixed to the fixing flange, the housing cover can be pushed axially into the housing. the peripheral wall without having to detach the connection by hooking.

A spring element is housed in the transmission housing to hold the housing cover prestressed. The attachment surfaces of the attachment elements and that of the complementary fastening elements are thus pushed against each other and the forces exerted on the housing cover are reduced during transport. To secure the drive unit to the mounting flange, the housing cover is then pressed against this spring force in the axial direction in the peripheral wall until the outer axial surface of the cover is level with the frontal face of the peripheral wall of the fastening flange.

When the attachment surfaces of the attachment elements and complementary attachment elements which are substantially perpendicular to the axial direction, the attachment link will make a non-removable connection. If the attachment surfaces are inclined with respect to the axial direction, it will be possible to open the attachment link again by exerting an appropriate traction force on the cover.

Advantageously, the transmission is a screw transmission of which the armature shaft of the electric motor carries a screw cooperating with a screw wheel housed in the transmission housing. To increase the rotational movement of the screw wheel, there is further a planetary or eccentric transmission in the transmission housing. The transmission components include an output member that protrudes through a central opening of the housing cover. Thus the drive unit is very compact ensuring a very large reduction and the various components of the transmission are also mounted axially in the base body of the cover to block the housing cover.

The transmission has, for example, a rotationally fixed slide which preferably guides an eccentric wheel. The slide is housed in a radial recess of the peripheral wall, the housing cover has corresponding radial extensions which, after being mounted on the base body of the housing, close the recesses of the peripheral wall. This allows, according to the invention, to use bonds by partial annular attachment, even for the elements of the lid but which are not perfectly circular, but only in certain angular ranges. In order to apply the axial elastic force which pushes the housing cover from the inside to the outside, the transmission housing houses the axial-effect spring element, in a particularly simple manner the spring element is a ring closed which completely surrounds the axis of the screw wheel. It is possible, for example, to interpose such a spring element axially between the bottom of the casing body and the screw wheel so that the axial force developed by the spring ensures the prestressing of all the components of the transmission, from the inside towards the housing cover.

Thanks to the material gain, the drive unit will be lighter. There is no axial mounting tolerance to be respected because the components of the transmission, after mounting on the flange position themselves exactly in the axial direction. Particularly advantageously, the gearbox does not require, in addition to the attachment mechanisms and, where appropriate, the centering extension, no additional fixing means such as screws for fixing the housing cover, in particular on the basic body. bowl shaped case.

drawings

The present invention will be described hereinafter in more detail with the aid of an example of a transmission box shown in the accompanying drawings in which: FIG. 1 shows a transmission module before it is mounted, FIG. FIG. 3 shows a transmission according to the invention with the casing cover, and FIGS. 4a and 4b show a section of the transmission casing according to the invention respectively before and after being mounted in a casing. vehicle.

Description of Embodiments of the Invention

Figure 1 shows a transmission module 8 of a seat actuator, for example attached to the side wall 61 of a seat frame. The surface of the seat frame constitutes a mounting flange 60 for receiving the transmission module 8. An electric motor 54 drives a screw 69 through its armature shaft; this screw in turn drives a screw wheel 68 housed in the transmission housing 10. This screw transmission 64 transmits the motor torque by a drive member to the output gear 70 passing through a clearance of the mounting flange 60 and cooperating with an adjustable seat component (eg seat or backrest); this cooperation is done, for example, by means of a suitable hollow wheel and / or a flexible shaft. A housing cover 11 is fixed in the body 12 of the housing by a snap connection 20, partial and it is only on mounting on the mounting flange 60 that the cover will be pushed into its final axial position. The transmission module 8 is, for example, fixed by means of screws constituting connecting members 58 to the mounting flange 60. For this, the connecting members 58 are passed through holes 59 of the mounting flange 60. for fixing them in fixing domes 56, in particular using self-tapping screws in the plastic material of the transmission housing 10.

Figure 1 shows, in phantom, the mounting flange 60 before the transmission module 8 is fixed integrally therewith; the mounting flange is spaced from the spring stroke 50 of the outer surface 13 of the lid 11 of the housing. After mounting, both the front face 18 of the peripheral wall 15 of the body 12 of the housing and also the outer surface of the cover 13 axially engage the mounting flange 60. The housing cover 11 is pushed by an element spring 51 axially against the mounting flange 60; this spring element is located between the bottom 49 of the housing body 12 and the transmission components 52 (in particular the screw wheel 68) in the transmission housing 10). When mounting in the vehicle the transmission components 52 will thus be moved to their correct axial position of operation. The fixing domes 56 are made in one piece with the body 12 of the housing, preferably by injection.

FIG. 2 shows the empty base body 12, the bottom surface 49 of which receives the axial spring element 51. In the middle, on the axis 66, a shaft 67 secured to the housing receives the transmission components 52. lower part of the peripheral wall 15 of the body 12 of the housing comprises fastening elements 22 in the form of latching nose 23 which extend in the peripheral direction over a certain angular range 32. By way of example, two fastening elements 22, partially of annular shape which each extend about 90 ° from the substantially circular inner periphery of the peripheral wall 15. In this embodiment, the peripheral wall 15 is in first approximation, rigid, so that the cover 11 of the housing will be radially flexible for its engagement in the peripheral wall 15.

Figure 3 shows the transmission housed in the housing 10 with the housing cover 11. The screw wheel 68 has an eccentric which does not appear and which actuates an eccentric wheel 78 to perform eccentric movement. Thus, a hollow wheel 79 integral with the output pinion 70 rolls on the eccentric toothed wheel 78 so that the eccentric wheel 78 is guided by a slider 76 integral in rotation with the base body 12. The base body 12 of the housing comprises radial recesses 80 radially receiving the slider 76. The hollow wheel 79 is covered by the cover 11 of the housing and the axial extension with the pinion 70 comprises a cylindrical flange 71 against which the edge of the hole 72 of the housing cover 11 bears. The housing cover 11 here has radial extensions 82 covering corresponding radial recesses 80 of the body 12 of the housing. Under the impeller 68 is a resilient ring 51 which, after mounting of the transmission, preloads the transmission portion 52 axially between the bottom surface 49 and the inner side of the housing cover 11. The spring member 51 is, for example, a corrugated ring surrounding the shaft 67 in a closed pattern. The force developed by the spring of the transmission module 8 is very low, or even zero, and it is only after mounting on the mounting flange 60 that this force is increased by the axial depression of the housing cover 11. which allows to position axially, precisely, the transmission components 52 by the axial elastic force. Complementary latching elements 24 formed on the housing cover 11 and which, when the housing cover 11 is assembled with the housing body 12, form a snap connection 20 with the fastening elements 22. The elements complementary hooks 24 are also formed in the form of complementary gripping lugs 25, of radial shape, which extend over the angular range 23 in the peripheral direction; they extend for example about two times 90 °. The outer periphery of the housing cover 11 has an axial slot 36 which gives a certain radial flexibility to the outer wall 14 with its complementary attachment lugs 25. In this embodiment, an axial pin 37 formed on the base body 12 of the housing enters the slot 36.

Figure 4a shows a section of the transmission housing 10 prior to mounting and Figure 4b shows the sectional view after mounting. The latching noseplates 23 and the complementary hooking noseplates 25 each have an engagement ramp 26, 28 so that the hooking elements and the complementary hooking elements 22, 24 can slide by axial sliding of the housing cover. 11 in their hooking position. Axially, next to the complementary hooking lugs 25, the housing cover 11 has a recess 44 for the axial sliding of the hooking lugs 23, in particular without clamping. The housing cover 11 is retained captively transport in this step according to Figure 4a. The housing cover 11 is thus pushed axially outwards by the spring element 51 not appearing in this figure so that the attachment surfaces 84 of the attachment elements and complementary fastening elements 22, 24 lean against each other. The radial orientation of the attachment surfaces 84 applied against each other of the attachment and complementary attachment elements 22, 24 make the clipping linkage 20 integral and thus constitutes a guaranteed protection.

According to one variant, hooking surfaces 85 inclined with respect to the axial direction 30 can be made to make the coupling connection 20 removable. When mounting the transmission module 8 according to Figure 4b, the cover 11 of the housing is pushed along the spring stroke 50 in the base body 12 of the housing so that the cover 11 no longer protrudes from the body 12 of the housing, but is applied axially against its mounting flange 60. The outer surface 13 of the housing cover 11 is thus level with the front surface 18 of the peripheral wall 15. The latching slats 22 are thus guided axially in the recesses 44. The surfaces The snap-fastener 84 is no longer in the operating position so that the clipping link 20 can be designed to hold a minimum stress which corresponds only to that of the transport (captive connection).

It should be noted that multiple possibilities of combinations are conceivable with respect to the exemplary embodiments presented in the figures for combining the different characteristics. Thus, for example, the practical realization of the hooking elements and the complementary elements 22, 24 as well as their number and their angular range can be modified. The nature of the coupling connection 20 is here described as being in part an annular engagement connection, but it can also have flexible attachment elements or recesses in the peripheral wall. Instead of the eccentric transmission or epicyclic transmission, it is also possible to envisage other forms of transmission in the transmission housing in order to transmit the motor torque supplied by the electric motor by the output element 70 to the part to be adjusted / controlled. . The invention is particularly suitable for adjusting moving components of a motor vehicle and in particular for adjusting components of a seat and the transmission module is preferably attached to a side wall of the vehicle seat.

NOMENCLATURE OF THE MAIN ELEMENTS 8 Transmission module 10 Transmission housing 11 Housing cover 12 Housing base 13 External surface of the cover 15 Peripheral wall / outer wall 18 End face 20 Annular snap connection 22 Clamping element 23 Spout fastening 24 Additional fastening element 25 Complementary fastening spigot 26, 28 Engagement fillet 30 Axial direction 32 Angular range 36 Axial slot 44 Recess 49 Bottom surface 50 Spring stroke 51 Axial spring element / elastic ring 52 Component of the transmission 54 Electric motor 58 Connecting element 59 Drilling / bottom surface of housing body 60 Mounting flange 61 Side wall 64 Screw drive 66 Shaft 67 Shaft secured to housing 68 Screw wheel 69 Screw 70 Output pinion 71 Cylindrical collar 72 Hole 76 Slider 78 Impeller with eccentric 79 Hollow wheel 80 Radial bore 82 Radial extension 8 4 Hanging surface

Claims (12)

1) Transmission housing (10), in particular for a seat adjustment actuator (8) fitted to a motor vehicle and having a housing base body (12) provided with a peripheral wall (15) and a housing cover (11) and an interlocking connection (20) for locking the housing cover (11) to the base body (12), the inner radial side (16) of the peripheral wall ( 15) having hooking members (22) which can hook onto complementary engaging members (24) of the outer radial wall (14) of the housing cover (11). transmission housing characterized in that in the radial outer wall (14) or in the peripheral wall (15) there are axially extending recesses (44) in which axially axially displaceable (30) to the others after hooking thereof the hooking elements (22) or the complementary catching elements (24), the recesses (44) extending in the axial direction (30) at least according to the axial spring stroke (50) transmission parts (52) housed in the transmission housing (10). Transmission housing (10) according to claim 1, characterized in that the housing cover (11) is inserted completely in the axial direction into the peripheral wall (15) of the base body (12) of the following housing the axial mounting direction (30). Transmission housing (10) according to one of claims 1 or 2, characterized in that the housing cover (11) has an outer axial surface (13) which, when installed in the vehicle, comes level with the axial end surface (18) of the peripheral wall (15) to complete the latter and not to exceed in the axial direction. 4 °) transmission housing (10) according to one of claims 1 to 3, characterized in that the hooking elements (22) are formed spaced axially from the axial end face (18) on the inner side ( 16) of the peripheral wall (15) and the complementary latching elements (24) are formed on a radially outer side (17) of the radial outer wall (14) of the housing cover (11), axially spaced apart by relative to the axially outer covering surface (13). 5 °) transmission housing (10) according to one of claims 1 to 4, characterized in that the fastening elements (22) are formed in one piece with the peripheral wall (15) in the form of beaks d latching (23), radial and the complementary latching elements (24) are made in one piece with the lid (11) of the housing in the form of complementary attachment lugs (25), radial, which have, respectively engagement leaves (26, 28) sliding axially on each other for attachment. Transmission box (10) according to one of claims 1 to 5, characterized in that the hooking elements (22) and the complementary hooking elements (24) are partially annular and extend in particular on an angular range (32) greater than 30 ° and preferably equal to about 80 ° -100 °. 7 °) transmission housing (10) according to one of claims 1 to 6, characterized in that the housing cover (11) is radially flexible so that its outer wall (14), radial, during engagement in the base body (12) of the housing can be deformed radially at least in the dimension (34) of the radial overlap of the latching noses (23) and the complementary attachment noses (25), by deforming elastically radially towards the inside and in particular the outer radial wall (14) has slots (36) open axially. 8 °) transmission module (8) comprising a housing (10) according to any one of claims 1 to 7, the transmission housing (10) receiving the transmission components (52) driven by an electric motor (54), characterized in that the transmission components (52) are clamped against the housing cover (11) by an axially acting spring element (51) and in particular in the non-installed state of the transmission module (8), the cover surface (13), axial, external, exceeds the axial end surface (18) of the peripheral wall (15). Transmission module (8) comprising a housing (10) according to claim 8, characterized in that the base body (12) of the housing comprises screw domes (56) which, when the transmission module (8) ) is in the mounted state, receiving connecting members (58) urging the end face (18) against the mounting flange (60), preferably a chassis surface (61) of the vehicle seat and the housing cover (11) against the force developed by the spring element (51) in the housing body (12) and in particular the outer axial surface (13) of the cover is resiliently applied in the axial direction against the mounting flange (60). ). Transmission module (8) comprising a housing (10) according to one of claims 8 or 9, characterized in that the transmission components (52) form a screw transmission (64) including a screw wheel ( 68) mounted on an axis (66) integral with the housing is engaged with the screw (69) of an electric motor (54) and an output gear (70) cooperating with the screw wheel (68) is projecting from an orifice (72) of the housing cover (11). Transmission module (8) having a housing (10) according to one of claims 8 to 10, characterized in that the transmission components (52) form an epicy-cloidal transmission (74) and a slider (76). for guiding a rotationally integral eccentric gear (78) into radial recesses (80) of the housing base body (12) and in particular the housing cover (11) has radial extensions (82) which hermetically seal the radial recesses (80) in the axial direction (30). 12 °) transmission module (8) comprising a housing (10) according to one of claims 8 to 11, characterized in that the spring element (51) is annular in shape being housed axially between the bottom (49) ) of the base body (12) of the housing and the screw wheel (68) and in particular the spring element (51) completely surrounds the axis (66) of the screw wheel (68).