CN214523436U - Manual seat slide rail assembly - Google Patents

Abstract

The utility model provides a manual formula seat slide rail assembly, it has two slide rail mechanism that arrange side by side, and this slide rail mechanism is including having the lower slide rail set spare of lower rail to and have the slip and locate last slide rail set spare of last rail in the lower rail, in be equipped with on the lower rail along a plurality of locking holes of self length direction interval arrangement, and above-mentioned slide rail mechanism still including locating constitution on the last rail is right go up the rail with the locking subassembly of locking or unblock between the lower rail, and rotate and locate constitution on the last rail is right for the lower rail is gliding the bearing assembly of the roll support of last rail. The utility model discloses a manual formula seat slide rail assembly can guarantee that the upper rail can promote the use quality of slide rail product for smooth-going and stable slip of lower rail, and its constitution is comparatively simple, also can simplify the structure of slide rail locking mechanism to a certain extent.

Description

Manual seat slide rail assembly

Technical Field

The utility model relates to a seat slide technical field, in particular to manual formula seat slide assembly.

Background

Among the multiple vehicle models, the MPV vehicle model is increasingly favored by the terminal customer due to its larger passenger space and comfortable riding environment, and also becomes one of the growth points of each whole vehicle factory in the future. Because the front and back stroke adjusting range of the two-row seat can directly influence the flexibility and the comfort of the sitting space, the existing two-row seat and the three-row seat are mostly applied to the long slide rail seat. And long slide rail technique also possesses higher strategic prospect as the supporting platform technique of future intelligent passenger cabin.

However, most of the existing long sliding rails are steel upper and lower rails or steel upper rail and aluminum lower rail, which are not light in weight and not durable, and the upper and lower rails are also of a simple sliding fit structure, and are not enough in use quality. Meanwhile, the locking mechanism for locking the upper sliding rail and the lower sliding rail is complex and is commonly used in the existing long sliding rail structure.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention is directed to a manual seat slide assembly to improve the quality of the slide product.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the utility model provides a manual formula seat slide rail assembly, has two slide rail mechanism that arrange side by side, slide rail mechanism is including having the lower slide rail set spare of lower rail to and have and slide and locate the last slide rail set spare of the last rail in the lower rail, and in be equipped with on the lower rail along a plurality of locking holes of self length direction interval arrangement, just slide rail mechanism still includes:

the locking assembly is arranged on the upper rail and provided with an operating end which is rotatably arranged in the upper rail, a locking end which is slidably arranged in the upper rail corresponding to the locking hole and a first elastic piece which is arranged between the upper rail and the operating end, and the locking end can slide to form insertion fit with at least one locking hole under the driving of the first elastic piece so as to lock the upper rail and the lower rail and bear external operating force by the operating end, and the locking end can slide reversely to release the locking;

and the bearing assembly is rotatably arranged on the upper rail and is in rolling contact with the lower part of the lower rail so as to form rolling support for the upper rail which slides relative to the lower rail.

Further, the slide rail mechanism further includes:

the gap eliminating assembly is rotatably arranged on the upper rail in a lever shape, the gap eliminating assembly is provided with a rolling body which is positioned at one end and is in rolling butt joint with the upper part of the lower rail, and a second elastic piece which is positioned at the other end and is in butt joint with the upper rail, gap eliminating inclined planes which are oppositely arranged are arranged on the rolling body, and contact inclined planes which are in butt joint with the gap eliminating inclined planes are arranged on the lower rail corresponding to the gap eliminating inclined planes.

Furthermore, a stripping mechanism is fixedly connected to the upper rail, a welding nut for connecting a seat is fixedly arranged in the stripping mechanism, a connecting piece connected with a bearing base for loading the sliding rail mechanism and a positioning piece for positioning the connection of the connecting piece are arranged on the lower rail.

Furthermore, soft decorative strips which are arranged side by side are arranged at the top of the lower rail, end decorative covers which are arranged corresponding to the end parts of the soft decorative strips and end cover covers which are blocked at the end parts of the lower rail are respectively arranged at the two ends of the lower rail, and the upper rail slides between the two soft decorative strips.

Furthermore, the upper rail and the lower rail are both aluminum rails, a plurality of reverse buckles are respectively arranged on two sides of the inner portion of the lower rail, and corresponding to the reverse buckles, the upper rail is provided with buckle teeth which are respectively embedded in the corresponding reverse buckles.

Furthermore, the second elastic piece is a rubber block fixedly arranged at one end of the gap eliminating component.

Furthermore, centering inclined planes which are oppositely arranged are arranged on the bearing assembly, and matching inclined planes which are abutted with the centering inclined planes are arranged on the lower rail corresponding to the centering inclined planes.

Further, the locking end is including the locking pinion rack that is equipped with the locking tooth, the manipulation end is located including rotating unblock dwang in the upper rail, and be located unblock dwang one side with the unblock catch bar that the unblock dwang links firmly, first elastic component butt in on the unblock catch bar, and in be equipped with on the locking pinion rack and be on a parallel with the first rectangular hole of locking end locking direction, and the quadrature in the second rectangular hole of first rectangular hole, the unblock dwang with the unblock catch bar is worn to locate respectively first rectangular hole with in the second rectangular hole.

Furthermore, a third strip hole parallel to the first strip hole is formed in the locking toothed plate, and the locking assembly is further provided with an unlocking support rod which is arranged in the third strip hole in a penetrating mode and fixed on the upper rail.

Further, first elastic component is located for the cover torsional spring on the unblock dwang, the both ends of torsional spring respectively the butt in the unblock catch bar with on the last rail, and in the unblock handle has been linked firmly on the unblock dwang.

Compared with the prior art, the utility model discloses following advantage has:

manual formula seat slide rail assembly, the operating force is applyed to the accessible realizes the unblock adjustment of slide rail, and its setting of bearing assembly between the rail about utilizing can reduce the sliding resistance between the upper and lower rail, through the setting of the clearance subassembly that disappears between the upper and lower rail, also can guarantee the stability of upper rail when sliding for the lower rail to can promote the use quality of slide rail product.

And simultaneously, the utility model discloses an on the basis that sets up the locking hole, only locate the control end in the upper rail by rotating, locate the locking end in the upper rail slidable to and locate the first elastic component between upper rail and the control end, alright order about by first elastic component and realize the locking, and the control end accepts external force and realizes the unblock, and it constitutes comparatively simply to can simplify the structure of slide rail locking part to a certain extent.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a schematic structural view of a manual seat slide assembly according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a slide rail mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a lower slide rail assembly according to an embodiment of the present invention;

fig. 4 is an exploded view of a lower track assembly according to an embodiment of the present invention;

fig. 5 is a cross-sectional view of a lower rail according to an embodiment of the present invention;

fig. 6 is a schematic structural view of an upper slide rail assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural view of an upper slide rail assembly according to an embodiment of the present invention from another perspective;

fig. 8 is an exploded view of an upper track assembly according to an embodiment of the present invention;

fig. 9 is a schematic view illustrating the cooperation between the upper rail and the lower rail according to the embodiment of the present invention;

fig. 10 is a schematic structural diagram of a peeling mechanism according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a locking assembly according to an embodiment of the present invention;

fig. 12 is another schematic structural diagram of a locking assembly according to an embodiment of the present invention;

fig. 13 is a schematic view of the unlocking support rod and the unlocking pushing rod of the embodiment of the present invention cooperating with the upper rail;

fig. 14 is a schematic structural view of the unlocking rotating rod located in the middle of the locking toothed plate according to the embodiment of the present invention;

fig. 15 is a schematic structural diagram of a gap eliminating assembly according to an embodiment of the present invention;

fig. 16 is a schematic view illustrating the cooperation of the second rolling elements and the lower rail according to the embodiment of the present invention;

fig. 17 is a schematic structural diagram of a bearing assembly according to an embodiment of the present invention;

fig. 18 is a schematic view of a bearing assembly according to an embodiment of the present invention engaged with a lower rail;

FIG. 19 is a diagram illustrating the operation of the anti-backlash assembly and bearing assembly with the lower rail according to an embodiment of the present invention;

fig. 20 is a schematic structural view of an end stop according to an embodiment of the present invention;

description of reference numerals:

100. a slide rail mechanism;

1. a lower slide rail assembly;

101. a lower rail; 102. a locking hole; 103. a soft decorative strip; 104. an end cover; 105. an end trim cover; 106. a connecting member; 107. a positioning member;

101a, a card slot; 101b, a jaw; 101c, a mating bevel; 101d, a limiting groove; 101e, a first reverse buckle; 101f, a second reverse buckle; 101g, a third reverse buckle; 101h, fourth reversing; 101i, contact slope;

2, sliding rail components are arranged;

201. rail mounting; 202. a peeling mechanism; 203. riveting; 204. a locking toothed plate; 205. an unlocking handle; 206. unlocking the rotating rod; 207. unlocking the push rod; 208. unlocking the rotating bracket; 209. a first elastic member; 2010. unlocking the supporting rod; 2011. rotating the rod sleeve; 2012. a gap eliminating component; 2013. a bearing assembly; 2014. a rotating shaft; 2015. an end stop; 2016. mounting screws;

20121. eliminating the gap bracket; 20122. a rolling body; 20123. a second elastic member.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it should be noted that, if terms indicating orientation or positional relationship such as "upper", "lower", "inner", "outer", etc. appear, they are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the appearances of the terms first, second, etc. in this specification are not necessarily all referring to the same item, but are instead intended to cover the same item.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The present embodiment relates to a manual seat track assembly, which is generally used for mounting a car seat in a car body and can be manually pushed to adjust the seat position, and it should be noted that, as a preferred example, the car of the present embodiment is an MPV car type having a large passenger space, and thus the seat track of the present embodiment is also a long track structure having a long stroke used for two-row and three-row seats in the MPV car type.

The long slide rail structure generally means that the length of a lower slide rail component fixedly connected with a vehicle body is longer, and the length is even more than 1000mm, and at the moment, an upper slide rail component used for being connected with a seat can have a longer stroke when sliding along the lower slide rail component, so that a larger adjustment amount can be obtained.

Further, it is also noted that in MPV models, the slide rail mechanism of the present embodiment, which is generally a long slide rail, may be more used for the two-row seats. Moreover, although the MPV will be more used in a long slide rail structure, it is undeniable that the slide rail mechanism of the embodiment can be used in other vehicle types with slide rail moving strokes according to design requirements, and is not limited herein.

Overall, as shown in fig. 1, the manual seat slide assembly of the present embodiment has two slide rail mechanisms 100 arranged side by side, the two slide rail mechanisms 100 have the same structure, and as shown in fig. 2, each slide rail mechanism 100 includes a lower slide rail assembly 1 having a lower rail 101, and an upper slide rail assembly 2 having an upper rail 201 slidably disposed in the lower rail 101. The lower rail 101 is provided with a plurality of locking holes 102 arranged at intervals along the length direction of the lower rail 101, and the slide rail mechanism of the embodiment further comprises a locking assembly arranged on the upper rail 101 and used for locking or unlocking the space between the upper rail 201 and the lower rail 101, a bearing assembly 2013 rotatably arranged on the upper rail 201 and used for rolling and supporting the upper rail 101 sliding relative to the lower rail 101, and a gap eliminating assembly 2012 which is rotatably arranged on the upper rail 201 in a lever shape and provided with a gap eliminating inclined surface.

Specifically, the locking hole 102 provided in the lower rail 101 and the locking component correspondingly provided in the upper rail 201 constitute a rail locking mechanism for locking or unlocking between the upper rail component 1 and the lower rail component 2, and the detailed structure of each part of the rail locking mechanism will be described one by one hereinafter.

As shown in fig. 3 and 4, an exemplary structure of the lower sliding rail assembly 1 of the present embodiment is that the lower rail 101 is long, and as a preferred implementation form, the lower rail 101 and the upper rail 201 in the upper sliding rail assembly 2 are both aluminum rails, that is, the lower rail 101 and the upper rail 201 are both made of aluminum alloy, so that not only the upper rail and the lower rail have better durability compared with the existing steel rail structure, but also the quality of the lower rail 101 and the upper rail 201 can be reduced, which is beneficial to light weight design.

In this embodiment, each locking hole 102 is disposed at a side portion of the lower rail 101, and is substantially arranged from one end of the lower rail 101 to the other end thereof, and at this time, the locking tooth plate 204 in the locking assembly is also horizontally arranged corresponding to the locking hole 102 disposed at the side portion, that is, slides along the width direction of the lower sliding rail 101, so that the locking teeth thereon can be inserted into the locking holes 102 at corresponding positions to form a plug-in fit, or can be pulled out from the locking holes 102. However, besides locating the locking hole 102 at the side of the lower rail 101, it is of course possible to locate the locking hole 102 at the bottom or top of the lower rail 101, but corresponding to the different positions of the locking hole 102, the locking assembly in the upper rail 201 also needs to be adjusted accordingly in terms of structural arrangement to enable proper locking or unlocking.

In order to improve the appearance quality of the lower rail assembly 1 and to protect the components therein, the present embodiment is also provided with soft decoration strips 103 arranged side by side on the top of the lower rail 101, and the upper rail 201 of the upper rail assembly 2 slides between the two soft decoration strips 103. In addition, end trim covers 105 arranged corresponding to the ends of the soft trim strips 103 and an end cover 104 closing the ends of the lower rail 101 are respectively arranged at the two ends of the lower rail 101, wherein the end cover 104 and the end trim cover 105 can both be made of plastic and can be fixed at the ends of the lower rail 101 in a clamping or screwing manner.

In order to mount and fix the lower rail assembly 1, the lower rail 101 of this embodiment is also provided with a connecting member 106 connected to the load-bearing base of the loading rail mechanism, and a positioning member 107 capable of positioning the connection of the connecting member 106. The above-mentioned load-bearing base is also generally referred to as a vehicle body, and when the seat of the present embodiment is used in other applications, it is understood that the load-bearing base is correspondingly other components for mounting the seat. In addition, as an exemplary structure, the connecting member 106 may be a bolt with a gasket, the positioning member 107 may be a positioning pin, and the connecting member 106 and the positioning member 107 may be respectively provided in a plurality as needed.

In this embodiment, the cross-sectional structure of the lower rail 101 is as shown in fig. 5, the lower rail 101 with the cross-section can be generally formed by an extrusion process, and in terms of specific structural design, first, a clamping groove 101a and a clamping claw 101b are symmetrically arranged on two opposite sides of the top of the lower rail 101, the clamping groove 101a and the clamping claw 101b are installation structures of the soft decoration strip 103, and the soft decoration strip 103 is directly clamped on the lower rail 101 through the clamping groove 101a and the clamping claw 101 b.

Also provided at the lower portion in the lower rail 101 are engagement inclined surfaces 101c symmetrically arranged on both sides, which are engaged with bearing assemblies 2013 described below, in particular. A limiting groove 101d is formed below each matching inclined surface 101c, the limiting grooves 101d on both sides are symmetrically and oppositely arranged, and the limiting grooves 101d on both sides together can enclose a space for placing the gasket in the connecting piece 106. At this time, the spacers in the connecting member 106 are respectively retained by the retaining grooves 101d on both sides, so that the connecting member 106 can be prevented from falling.

In addition to the lower limiting groove 101d, a first reverse buckle 101e, a second reverse buckle 101f, a third reverse buckle 101g and a fourth reverse buckle 101h are further disposed on the two opposite side walls in the lower rail 1, each reverse buckle on each side constitutes a reinforcing structure for improving the peeling strength between the upper rail and the lower rail, and corresponding to each reverse buckle, the upper rail 201 is also provided with buckle teeth respectively embedded in the corresponding reverse buckles. At this time, the engagement state of the teeth on the upper rail 201 and the reverse hooks on the lower rail 101 is as shown in fig. 9 described below. Furthermore, instead of the back-off and tooth structure shown in fig. 5 and 9, other similar structures may be adopted to increase the peel strength between the upper rail 201 and the lower rail 101.

In the present embodiment, generally opposite to the above-mentioned engaging inclined surface 101c, the upper portion of the upper rail 201 is also provided with a contact inclined surface 101i which is also symmetrically arranged on both sides, and the contact inclined surface 101i is used for engaging with the rolling body 20122 in the backlash eliminating assembly 2012 described below.

Fig. 6 to 8 show an exemplary structure of the upper rail assembly 2 of the present embodiment, wherein the upper rail 201 is also a long bar, but the length thereof is much shorter than that of the lower rail 101, the upper rail 201 is preferably an aluminum rail as described above, i.e., made of aluminum alloy, and it can be generally formed by an extrusion process, and further machined for final shaping after the extrusion process.

The cross-section of most of the upper rail 201 of this embodiment is shown in fig. 9, but the cross-section differs in the location where the anti-backlash assembly 2012, the bearing assembly 2013 and the locking assembly are disposed. As can be seen from fig. 9, as described above, the upper rail 201 is inserted into each reverse buckle in the lower rail 101 via the buckle teeth formed on both sides thereof, so that the upper rail 201 is advantageously prevented from being peeled off from the lower rail 101 while achieving sliding guidance therebetween.

Specifically, two stripping mechanisms 202 shown in fig. 10 are fixedly connected to the upper rail 201, the two stripping mechanisms are respectively disposed at two ends of the upper rail 201, each stripping mechanism 202 is fixedly connected to the upper rail 201 through a rivet 203, and a welding nut for connecting a seat is fixedly disposed in each stripping mechanism 202. In particular, the release mechanism 202 may be implemented by referring directly to the related components of the existing slide track structure of the car seat.

The present embodiment is directed to the locking assembly of the sliding rail locking mechanism, which is designed to have an operating end rotatably disposed in the upper rail 201, a locking end slidably disposed in the upper rail 201 corresponding to the locking hole 102, and a first elastic member 209 disposed at the upper rail 201 and the operating end. At this time, the locking end is also slidable by the urging of the first elastic member 209 to engage with at least one of the locking holes 102 to lock the upper rail 201 and the lower rail 101, and the locking end is also slidable in the opposite direction to release the locking by receiving an external operating force through the operating end.

In detail, fig. 11 to 13 show an exemplary structure of the locking assembly of the present embodiment, and the exemplary structure is specifically configured to match with the locking hole 102 at the side of the lower rail 101. Referring to fig. 11 and 12, the locking end of the present embodiment includes a locking toothed plate 204 provided with locking teeth, the manipulating end includes an unlocking rotating rod 206 rotatably disposed in the upper rail 201, and an unlocking pushing rod 207 fixedly connected to the unlocking rotating rod 206 and located on one side of the unlocking rotating rod 206, and the first elastic member 209 abuts against the unlocking pushing rod 207.

The locking teeth are specifically configured as a plurality at one end of the locking tooth plate 204, and as a preferred embodiment, the width of one of the locking teeth may be configured to match the width of the locking hole, so as to form anti-backlash teeth that can respectively contact with two side walls in the width direction of the locking hole, and meanwhile, the widths of the other locking teeth may be uniformly configured to be smaller than the anti-backlash teeth. In this way, by providing the backlash elimination teeth, the clearance in the X direction, that is, in the longitudinal direction of the lower rail 101 can be eliminated well during locking, and the stability of the locked upper rail 201 and the seat connected to the upper rail 201 can be improved.

In each locking tooth, the backlash eliminating tooth is generally a main tooth, and it may be one of the locking teeth located in the middle, or it may be a locking tooth at another position, and it may be selected according to actual requirements in specific design.

In addition, the unlocking rotating rod 206 and the unlocking pushing rod 207 of the present embodiment are specifically fixedly connected through an unlocking rotating bracket 208, and the unlocking rotating bracket 208 is located at the back of the locking toothed plate 204 and is respectively connected with the end portions of the unlocking rotating rod 206 and the unlocking pushing rod 207. The locking toothed plate 204 is further provided with a first elongated hole parallel to the locking direction of the locking end and a second elongated hole orthogonal to the first elongated hole, and the unlocking rotating rod 206 and the unlocking pushing rod 207 are respectively inserted into the first elongated hole and the second elongated hole as shown in fig. 11.

By making the unlocking rotating rod 206 be located in the first elongated hole and the unlocking pushing rod 207 be located in the second elongated hole, the direction of the two elongated holes is set, so that the external force can be received at the manipulation end, and the unlocking rotating rod 206 is rotated, and specifically, when counterclockwise rotation is performed with reference to fig. 11, the unlocking pushing rod 207 can be driven to synchronously rotate counterclockwise by the unlocking rotating rod 206 through the transmission of the unlocking rotating bracket 208. And then, the first strip hole and the second strip hole are respectively used for providing space for the movement of the unlocking rotating rod 206 and the unlocking pushing rod 207 relative to the locking toothed plate 204, so that the locking toothed plate 204 can be moved in a sliding manner, and the unlocking operation can be performed.

In order to reduce friction and eliminate noise, in this embodiment, a rotating rod sleeve 2011 is also sleeved outside the unlocking rotating rod 206, the rotating rod sleeve 2011 may be made of plastic, and the top of the rotating rod sleeve 2011 is still provided with two wall plates arranged side by side as shown in fig. 11 or fig. 12, and the rotating rod sleeve 2011 is clamped on the upper rail 201 as shown in fig. 6 and fig. 7 by the wall plates on both sides, so as to prevent the rotating rod sleeve 2011 from rotating along with the unlocking rotating rod 206.

In this embodiment, through the arrangement of the first elongated hole and the second elongated hole which are just orthogonal, when the unlocking rotating rod 206 rotates, the locking toothed plate 204 can slide to form an unlocking stroke, and certainly, in the unlocking process, the first elastic member 209 is in an energy storage state. Besides unlocking, when the external force for unlocking is removed at the operating end, under the action of the energy released by the first elastic element 209, the locking toothed plate 204 can also be translationally and slidably reset by utilizing the constraint of the two elongated holes, and then is inserted into the corresponding locking hole 102 to restore locking.

As a preferred embodiment, the first elastic member 209 of the present embodiment is a torsion spring sleeved on the unlocking rotating rod 206, and two ends of the torsion spring respectively abut against the unlocking pushing rod 207 and the upper rail 201. In addition, this embodiment has also been linked firmly the unblock handle 205 at the unblock dwang 206 other end, and meanwhile, also sets up the floodgate line connecting hole on unblock handle 205 to make the manipulation end for exert by the floodgate line external force and drive, the other end of floodgate line can adopt manual pulling structure or electronic pulling structure, in order to exert operating force.

However, in addition to providing the brake cable connection hole, the brake cable connection hole may not be provided on the unlocking handle 205 in this embodiment, so that the unlocking handle 205 can be pushed by other rigid manipulating members to unlock.

Through the wear-out of unblock dwang 206 in first rectangular downthehole to and the wear-out of unblock catch bar 207 in the rectangular downthehole of second establishes, this embodiment can realize promptly by external force drive or when being driven by first elastic component 209, the translation of locking pinion rack 204 slides. However, if only the unlocking rotating rod 206 and the unlocking pushing rod 207 are provided, the problem that the locking toothed plate 204 is easy to incline due to single-side suspension inevitably exists, and the motion stability is affected. At this time, as a further improvement, a third elongated hole parallel to the first elongated hole may be disposed on the locking tooth plate 204, and an unlocking support rod 2010 penetrating the third elongated hole is further disposed in the locking assembly, and the unlocking support rod 2010 is fixed on the upper rail 201.

The third elongated hole and the unlocking support rod 2010 are also shown in fig. 11 and 12, and in specific implementation, the unlocking support rod 2010 may be made of a plastic material or a metal composite material, so as to reduce friction and noise. Meanwhile, one end of the unlocking support rod 2010 can be clamped on the upper rail 201 as shown in fig. 13, and a circular baffle plate arranged on one side of the locking toothed plate 204 can be arranged at the other end of the unlocking support rod 2010 so as to support the locking toothed plate 204.

It should be noted that in the present embodiment, although the unlocking rotation rod 206 is located at one end of the locking toothed plate 204 in fig. 11 and 12, the unlocking push rod 207 is located at the middle of the locking toothed plate 204. However, as shown in fig. 14, in the specific implementation, it is of course possible that the unlocking rotation rod 206 is displaced to the middle of the locking toothed plate 204, and the unlocking push rod 207 is located at the end of the locking toothed plate 204. Also, since the unlocking rotation rod 206 itself can support the locking tooth plate 204 at this time, the unlocking support rod 2010 may be omitted as shown in fig. 12 when the unlocking rotation rod 206 is located at the middle portion. However, although the unlocking support lever 2010 may be omitted, it is still possible to provide the unlocking support lever 2010 on the other side of the unlocking rotation lever 206 with respect to the unlocking push lever 207 when the unlocking rotation lever 206 is located at the middle.

As shown in fig. 15, the gap eliminating assembly 12 of the present embodiment is a pair of gap eliminating assemblies 12, each gap eliminating assembly 12 is arranged on the upper rail 201 in a lever-like manner, and includes a gap eliminating bracket 20121, a rolling body 20122 at one end of the gap eliminating bracket 20121 and in rolling contact with the contact inclined surface 101i on the upper portion of the lower rail 101, and a second elastic member 20123 at the other end and in contact with the upper rail 201.

In this embodiment, the rolling elements 20122 are in rolling contact with the contact inclined surfaces 101i on the upper portion of the lower rail 101 in a one-to-one correspondence manner through a pair of anti-backlash inclined surfaces arranged oppositely thereon, and as shown in fig. 16, the pair of anti-backlash inclined surfaces on the rolling elements 20122 are arranged in a shape of "eight", and the contact inclined surfaces 101i on the two sides of the lower rail 101 are also arranged in a shape of "eight". At this time, the gap between the Y-direction and the Z-direction, that is, the gap between the lower rail 101 in the width direction and the height direction can be eliminated by the rolling contact between the gap eliminating inclined surface and the contact inclined surface 101 i.

In the arrangement of the anti-backlash assembly 2012, it is generally sufficient to rotate the anti-backlash bracket 20121 on the upper rail 201 through the rotating shaft 2014. When the backlash eliminating bracket 20121 is arranged in a rotating mode, the rotating shaft 2014 for rotatably mounting the backlash eliminating assembly 12 is arranged close to one end of the rolling body 20122, after the rotating mode is arranged, the second elastic member 20123 provides elastic force for the whole backlash eliminating assembly 2012, and the force value of the elastic force provided by the second elastic member 20123 can be amplified by adopting a lever mode and the position arrangement of the rotating shaft 2014. Meanwhile, the second elastic member 20123 may be, for example, a rubber block fixedly disposed at the other end of the gap eliminating bracket 20121. Alternatively, instead of the rubber block, it is also possible to adopt a structure such as a leaf spring, a gas spring, or the like.

Fig. 17 shows a structure of a bearing assembly 2013 of the present embodiment, which is also a pair arranged on the upper rail 201 at intervals and is also rotatably disposed by using a rotating shaft 2014. In addition, as shown in fig. 18, the bearing unit 2013 of the present embodiment is specifically configured to be in rolling contact with the lower portion of the lower rail 101 so as to be able to constitute a rolling support for the upper rail 201 that slides with respect to the lower rail 101. Furthermore, as a preferred embodiment, the bearing assembly 2013 is also provided with a pair of centering inclined surfaces which are oppositely arranged, and the centering inclined surfaces are abutted with the matching inclined surfaces 101c on the lower rail 101, and both the centering inclined surfaces are also inverted-V-shaped, so that rolling support can be provided, a centering effect can be achieved, and the smoothness of the sliding of the upper rail 201 relative to the lower rail 101 can be ensured.

The bearing assembly 2013 is usually made of a plastic bearing structure, and the working state of the bearing assembly 2013 and the anti-backlash assembly 2012 of the present embodiment can be as shown in fig. 19. At this time, the second elastic member 20123 of the backlash eliminating assembly 2012 abuts against the inner wall of the upper rail 201, and the rolling body 20122 abuts against the lower rail 101, and abuts against the lower rail 101 by the elastic force generated by the second elastic member 20123. The bearing assembly 2013 rolls on the lower rail 101.

In the present embodiment, end stoppers 2015 are provided at both ends of the upper rail 201, respectively, and the end stoppers 2015 can be used as stop points of the upper rail, and the end stoppers 2015 can be configured as shown in fig. 20, and the end stoppers 2015 at each end can be fixed to the upper rail 201 via the mounting screws 2016.

In use, the manual seat track assembly of the present embodiment can be applied with external force via the brake cable, as described above, in a manual or electric manner, and in view of the related structure of the existing manual seat track. When the position of the seat needs to be adjusted, by applying the external force, the locking toothed plate 204 is driven to slide in a translation manner through the unlocking handle 205, the unlocking rotating rod 206 and the unlocking pushing rod 207, and compresses the torsion spring forming the first elastic member 209, the locking teeth are disengaged from the currently inserted locking hole 102, the locking is released, and the upper rail 201 and the seat can be manually pushed by a user to move along the lower rail 101, so that the position adjustment is performed.

When the seat moves to the right position, the applied unlocking external force is removed, and under the energy releasing and resetting action of the first elastic piece 209, the locking toothed plate 204 is driven to slide and reset through the unlocking push rod 207. At this time, the locking teeth on the locking tooth plate 204 can be inserted into the corresponding locking holes 102 again to restore the locking state, so as to adjust the seat position.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A manual seat track assembly having two track mechanisms (100) arranged side-by-side, characterized in that: slide rail mechanism (100) is including having lower slide rail set spare (1) of lower rail (101) to and have and slide and locate last slide rail set spare (2) of last rail (201) in lower rail (101), and in be equipped with on lower rail (101) along a plurality of locking holes (102) of self length direction interval arrangement, just slide rail mechanism (100) still includes:

the locking assembly is arranged on the upper rail (201), the locking assembly is provided with an operating end rotatably arranged in the upper rail (201), a locking end which is slidably arranged in the upper rail (201) corresponding to the locking hole (102), and a first elastic piece (209) arranged between the upper rail (201) and the operating end, and the locking end can slide to form insertion fit with at least one locking hole (102) due to the driving of the first elastic piece (209) so as to lock the upper rail (201) and the lower rail (101), and bear external operating force by the operating end, and can slide reversely to release the locking;

and the bearing assembly (2013) is rotatably arranged on the upper rail (201), and the bearing assembly (2013) is in rolling contact with the lower part of the lower rail (101) so as to form rolling support for the upper rail (201) sliding relative to the lower rail (101).

2. The manual seat track assembly of claim 1, wherein: the slide rail mechanism (100) further includes:

the backlash eliminating assembly (2012) is rotatably arranged on the upper rail (201) in a lever shape, the backlash eliminating assembly (2012) is provided with a rolling body (20122) which is positioned at one end and is in rolling contact with the upper part of the lower rail (101), and a second elastic piece (20123) which is positioned at the other end and is in contact with the upper rail (201), the rolling body (20122) is provided with backlash eliminating inclined planes which are oppositely arranged, the backlash eliminating inclined planes correspond to the backlash eliminating inclined planes, and the lower rail (101) is provided with contact inclined planes (101i) which are in contact with the backlash eliminating inclined planes.

3. The manual seat track assembly of claim 1, wherein: a stripping mechanism (202) is fixedly connected to the upper rail (201), a welding nut for connecting a seat is fixedly arranged in the stripping mechanism (202), a connecting piece (106) which is connected with a bearing foundation for loading the sliding rail mechanism (100) is arranged on the lower rail (101), and a positioning piece (107) for positioning the connection of the connecting piece (106) is arranged.

4. The manual seat track assembly of claim 1, wherein: soft decorative strips (103) arranged side by side are arranged at the top of the lower rail (101), end decorative covers (105) arranged corresponding to the end parts of the soft decorative strips (103) and end cover covers (104) blocked at the end parts of the lower rail (101) are respectively arranged at two ends of the lower rail (101), and the upper rail (201) slides between the two soft decorative strips (103).

5. The manual seat track assembly of claim 1, wherein: the upper rail (201) and the lower rail (101) are both aluminum rails, a plurality of reverse buckles are respectively arranged on two sides of the interior of the lower rail (101), the reverse buckles correspond to the reverse buckles, and buckle teeth which are respectively embedded in the corresponding reverse buckles are arranged on the upper rail (201).

6. The manual seat track assembly of claim 2, wherein: the second elastic piece (20123) is a rubber block fixedly arranged at one end of the gap eliminating component (2012).

7. The manual seat track assembly of claim 1, wherein: the bearing assembly (2013) is provided with centering inclined planes which are oppositely arranged, corresponding to the centering inclined planes, and the lower rail (101) is provided with a matching inclined plane (101c) which is abutted against each centering inclined plane.

8. A manual seat track assembly according to any of claims 1-7, wherein: the locking end is including locking pinion rack (204) that is equipped with the locking tooth, the manipulation end is located including rotating unblock dwang (206) in upper rail (201), and be located unblock dwang (206) one side with unblock catch bar (207) that unblock dwang (206) linked firmly, first elastic component (209) butt in unblock catch bar (207) are last, and in be equipped with on locking pinion rack (204) and be on a parallel with the first rectangular hole of locking end locking direction, and the quadrature in the second rectangular hole of first rectangular hole, unblock dwang (206) with unblock catch bar (207) wear to locate respectively in first rectangular hole with in the second rectangular hole.

9. The manual seat track assembly of claim 8, wherein: and a third strip hole parallel to the first strip hole is formed in the locking toothed plate (204), and the locking assembly is further provided with an unlocking support rod (2010) which is arranged in the third strip hole in a penetrating manner and fixed on the upper rail (201).

10. The manual seat track assembly of claim 8, wherein: first elastic component (209) are located for the cover torsional spring on unblock dwang (206), the both ends of torsional spring respectively the butt in unblock catch bar (207) with on last rail (201), and in unblock dwang (206) is gone up and is linked firmly unblock handle (205).

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