CN110641324A - Electronic slide rail set spare and outer slide rail - Google Patents

Abstract

The invention discloses an electric sliding rail assembly and an outer sliding rail, wherein the outer sliding rail comprises an outer sliding rail body forming a cavity, the cavity is also provided with an opening so that the inner sliding rail can be connected with an external seat conveniently, and the inner wall of the cavity of the outer sliding rail body comprises: the matching part is used for matching with the sliding mechanism of the inner sliding rail; the cable supporting part is used for slidably supporting a cable assembly of the electric slide rail assembly arranged in the cavity; the inner sliding rail is slidably supported in the inner cavity of the outer sliding rail body, the cable supporting assembly is also supported in the cavity of the outer sliding rail body, and the cable assembly reciprocates in the inner cavity along with the inner sliding rail.

Description

Electronic slide rail set spare and outer slide rail

Technical Field

The invention relates to the technical field of automobile seats, in particular to an electric slide rail assembly and an outer slide rail.

Background

At present, the adjustment modes of seats in the vehicle mainly comprise manual adjustment and electric adjustment in the market, wherein the electric adjustment has gradually taken a leading position in the market due to the advantages of high automation degree, labor saving in the adjustment process and the like.

The seat assembly comprises a seat body, an inner slide rail fixed on the seat body, an outer slide rail fixed on a vehicle bottom plate and a sliding mechanism, wherein the inner slide rail and the outer slide rail move back and forth through the sliding mechanism so as to realize the front and back adjustment of the seat body.

Seat assembly seat body uses manual regulation to give first place to among the prior art, and the slide rail mechanism to the seat assembly of electronic regulation is less. Because the electric adjusting slide rail mechanism is additionally provided with a driving part, a cable for connecting the driving part and the actuating mechanism and other parts, the corresponding structure of the electric adjusting slide rail mechanism is more complex.

Therefore, how to optimize the structure of the electric slide rail mechanism to make the structure simple and compact on the premise of satisfying the front-back adjusting function of the seat is a problem that needs to be solved urgently by the technical personnel in the field.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the electric sliding rail component which is simple and compact in structure.

In order to solve the technical problem, the invention provides an outer slide rail of an electric slide rail assembly, which comprises an outer slide rail body forming a cavity, wherein the cavity is also provided with an opening so that the inner slide rail can be connected with an external seat conveniently, and the inner wall of the cavity of the outer slide rail body comprises:

the matching part is used for matching with the sliding mechanism of the inner sliding rail;

and the cable supporting part is used for slidably supporting the cable assembly of the electric slide rail assembly arranged in the cavity.

The inner sliding rail is slidably supported in the inner cavity of the outer sliding rail body, the cable supporting assembly is also supported in the cavity of the outer sliding rail body, and the cable assembly reciprocates in the inner cavity along with the inner sliding rail.

Optionally, the cavity wall of the cavity includes a bottom wall, an inner surface of the bottom wall has a recessed portion with an inward opening, the recessed portion is provided with a first mounting structure fixed in cooperation with a vehicle floor, the cable support portion is provided in the bottom wall, and the cable support portion is higher than a groove bottom of the recessed portion.

Optionally, the cavity wall of cavity still includes the lateral wall of being connected with the diapire, and the roof, the opening is for seting up in the vertical opening of roof, every side the lateral wall with corresponding still be connected with the section of turning between the roof, the section of turning round is including the first section and the second section that connect gradually, the outer end of first section is connected the lateral wall, the inside extension of inner and with the second section is connected, the second section upwards extends and connects the roof, first section the lateral wall with the cable supporting part of diapire forms the space that holds the cable subassembly.

Optionally, the sliding mechanism of the inner slide rail includes a support roller and an auxiliary roller, the support roller is located at the bottom of the inner slide rail, a partial area of the bottom wall located inside the cable supporting portion forms a rolling surface of the support roller, and the rolling surface is higher than the recess; the auxiliary rollers are arranged above the two sides of the inner slide rail in an inclined mode, and the inner wall of the second section forms a surface matched with the auxiliary rollers to roll.

Optionally, one of the left and right top walls is provided with a second mounting structure which is mounted in a matching manner with the plastic rack, and the width of the top wall provided with the second mounting structure is greater than that of the other top wall.

Optionally, the inner edge of the top wall has a bent section bent downward, the bent section is provided with a locking structure for engaging with a locking assembly of the electric slide rail assembly, and the longitudinal opening is formed between the two bent sections.

Optionally, the recessed portion is a longitudinally extending groove located in the middle of the bottom wall, the bottom wall of the groove is a horizontal plane, the first mounting structure is disposed on the horizontal plane, and the portion of the groove extending outwards from the notch to both sides forms the portion of the fitting portion and the cable support portion.

In addition, the invention also provides an electric slide rail assembly which comprises an outer slide rail and an inner slide rail; the outer slide rail is the outer slide rail of the electric slide rail assembly, the inner slide rail comprises a top wall, side walls which are positioned on two sides of the top wall and extend downwards, and supporting walls which extend outwards from the bottoms of the side walls, supporting roller shafts are arranged at the front end and the rear end of each side, auxiliary roller shafts are arranged at the front end and the rear end of each supporting wall, and the cable supporting part is positioned on the outer side of the supporting wall.

Optionally, a plurality of notches are formed in the middle of the supporting wall, and all notches form a locking window.

Optionally, the support walls are in smooth transition with the corresponding side walls, and the support walls extend obliquely upward.

The electric slide rail assembly of the present invention includes the outer slide rail having the above structure, so that the above technical effects of the outer slide rail are also achieved, and will not be described in detail herein.

Drawings

Fig. 1 is a schematic structural view of an electric slide rail assembly according to an embodiment of the present invention;

FIG. 2 is an exploded view of the motorized slide assembly shown in FIG. 1;

FIG. 3 is a lateral view of an outer slide rail according to an embodiment of the present invention;

FIG. 4 is a transverse view of an outer slide rail according to one embodiment of the present invention;

FIG. 5 is a schematic structural view of an inner slide rail according to an embodiment of the present disclosure;

FIG. 6 is a schematic lateral view of the inner slide rail shown in FIG. 5;

fig. 7 is a transverse schematic view of the electric slide rail shown in fig. 1.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 7 is:

100-a motorized slide rail assembly; 101-outer slide rail; 1011-tank bottom; 1012-left top wall; 1013-right top wall; 1014-a side wall; 1015-bottom wall; 1016-first section; 1017-second stage; a-bending section;

600-an inner slide rail assembly; 601-inner slide rail; 6011-a top wall; 6012-side walls; 6013-a supporting wall; 6013 a-notch; 6013 b-mounting holes; 604-support roller shaft; 605-support rollers; 606-auxiliary rollers;

102-plastic racks; 103-bolt; 104-a cable assembly; 509-a card locking component; 510-gearbox assembly.

Detailed Description

The core of the invention is to provide an electric sliding rail component which has a simple and compact structure on the premise of meeting the front-back adjusting function of a seat. In addition, the other core of the invention is to provide an outer sliding rail of the electric sliding rail component.

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 7, fig. 1 is a schematic structural diagram of an electric slide rail assembly according to an embodiment of the present invention; FIG. 2 is an exploded view of the motorized slide assembly shown in FIG. 1; FIG. 3 is a lateral view of an outer slide rail according to an embodiment of the present invention; FIG. 4 is a transverse view of an outer slide rail according to one embodiment of the present invention; FIG. 5 is a schematic structural view of an inner slide rail according to an embodiment of the present disclosure; FIG. 6 is a schematic lateral view of the inner slide rail shown in FIG. 5; fig. 7 is a transverse schematic view of the electric slide rail shown in fig. 1.

In the present invention, the motorized slide assembly includes an outer slide 101, an inner slide assembly 600, a gear box assembly 510, and a cable assembly 104. The outer slide rail comprises an outer slide rail body forming a cavity, the inner slide rail assembly 600 is preferably arranged in an inner cavity of the outer slide rail, the inner slide rail assembly further comprises an inner slide rail, a sliding mechanism arranged on the inner slide rail and the like. The cavity is also provided with an opening so that the inner slide rail can be connected with an external seat. The opening in the cavity is usually a longitudinal opening because the inner slide rail needs to move back and forth.

The inner wall of the cavity of the outer slide rail body comprises a matching part used for matching with a sliding mechanism of the inner slide rail, the sliding mechanism of the inner slide rail is mainly a roller, and two different types of rollers are preferably arranged in the text: the supporting roller is arranged at the bottom of the inner slide rail, is used for supporting the main weight of the inner slide rail and is matched with the outer slide rail to slide; the auxiliary roller has the function of auxiliary sliding fit. The matching part is a roller path which is matched with the supporting roller and the auxiliary roller to roll.

Of course, the structure of the inner slide rail is not limited to the above structure, and other structures are also possible.

For the electric sliding rail assembly, a driving part, a transmission part and an execution part are necessarily included, and a cable assembly 104 is necessarily connected between the execution part and the driving part to transmit electric signals. The cable assembly 104 is located inside the cavity, so the inner wall of the cavity further comprises a cable support part for slidably supporting the cable assembly 104 arranged inside the cavity. The drive component herein is a motor and the transmission component is a gearbox assembly 510.

The inner sliding rail is slidably supported in the inner cavity of the outer sliding rail body, the cable supporting assembly is also supported in the cavity of the outer sliding rail body, and the cable assembly reciprocates in the inner cavity along with the inner sliding rail.

In a specific embodiment, the cavity wall of the cavity comprises a bottom wall 1015, the inner surface of the bottom wall 1015 has a concave portion opening inwards, it should be noted that one side of the cavity is defined as inner, the outer surface of the bottom wall 1015 is defined as outer, that is, a part of the bottom wall 1015 protrudes outwards to form the concave portion. The recess is provided with a first mounting structure which is fixed in cooperation with the vehicle bottom plate, the first mounting structure can comprise a bolt hole, the recess f is provided with a bolt hole, and the bolt 103 penetrates through the bolt hole to be connected with the vehicle bottom plate. Of course, the first mounting structure may be in other manners, such as a welded structure, etc.

The cable support portion is disposed on the bottom wall 1015, and is higher than the groove bottom of the recess portion f. That is, the cable support portion is not in the same plane as the first mounting structure and is higher than the plane of the first mounting structure. Therefore, the reciprocating motion of the cable assembly cannot be influenced by the installation of the first installation structure, and the flexibility of the motion of the cable assembly is further improved.

Further, the cavity wall of the cavity may further include a sidewall 1014 connected to the bottom wall 1015, and a top wall. The opening is a longitudinal opening in the top wall, so the top wall specifically includes a left top wall 1012 and a right top wall 1013. The side wall and the corresponding top wall are also connected with a turning section, the turning section comprises a first section 1016 and a second section 1017 which are connected in sequence, the outer end of the first section 1016 is connected with the side wall, the inner end extends inwards and is connected with the second section 1017, the first section 1016 can be approximately a horizontal section, certainly not limited to the horizontal arrangement, the first section 1016 can be an inclined section, and the inner end of the inclined section is inclined upwards.

The second section 1017 extends upward and connects the top wall, and the first section 1016, the side wall 1014 and the cable support portion of the bottom wall 1015 form a space d for accommodating the cable assembly, as shown in fig. 3. Most of the cable assembly 104 moves in the space formed by the first section 1016 and the bottom wall 1015, and has strong guidance.

After the inner track assembly 600 and the outer track assembly are assembled, the mounting structure of the inner track assembly 600 for connecting the seat extends out from the longitudinal opening between the left and right top walls, so as to fixedly connect the seat.

As described above, the sliding mechanism of the inner rail assembly includes the supporting roller 605 and the auxiliary roller 606, the supporting roller 605 is located at the bottom of the inner rail, the partial area of the bottom wall 1015 located at the inner side of the cable supporting portion forms the rolling surface e of the supporting roller 605, and the rolling surface e is higher than the groove bottom 1011 of the recess; the auxiliary rollers 606 are installed obliquely above both sides of the inner rail, and the inner wall of the second section 1017 forms a surface c that cooperates with the auxiliary rollers to roll.

The structure of the electric sliding rail assembly is more compact.

The motorized slide assembly further comprises a plastic rack 102, the plastic rack 102 being primarily used to eliminate the gap between the inner slide 601 and the outer slide 101.

Therefore, in the above embodiment, one of the left and right top walls is provided with the second mounting structure which is mounted in cooperation with the plastic rack 102, and the width of the top wall provided with the second mounting structure is larger than that of the other top wall. That is, the plastic rack 102 is mounted only on the left top wall 1012 or the right top wall 1013, and the width of the top wall on the side where the plastic rack 102 is mounted is larger than the width of the top wall where the plastic rack 102 is not mounted. The mounting area b of the right top wall 1013 to which the plastic rack 102 is mounted is shown in fig. 3, and it is apparent that the width of the right top wall 1013 is greater than the width of the left top wall 1012.

In the above embodiments, the top walls on the left and right sides are not of equal width, and the specific width is designed according to the specific application environment, and the absence of the disclosure of the width of the top wall or the size of other walls does not affect the understanding and implementation of the technical solution by those skilled in the art.

The electric sliding rail assembly of the present invention further comprises a locking and clamping assembly 509, so in an embodiment, the inner edges of the left and right top walls of the outer sliding rail have a bent section a bent downward, the bent section a is provided with a locking structure for engaging and matching with the locking and clamping assembly 509 of the electric sliding rail assembly, and a longitudinal opening is formed between the two bent sections a. The locking structure cooperates with the locking assembly 509 to lock, and the specific structure may be a window structure. The shape of the window structure is determined according to the specific structure of the latch assembly.

The recess in each of the above embodiments may be a longitudinally extending groove located in the middle of the bottom wall 1015, the bottom wall 1015 of the groove is a horizontal plane, the first mounting structure is disposed on the horizontal plane, and portions of the groove extending outward from the notch to both sides form a portion of the mating portion and the cable support portion. That is, the horizontal section extending from the notch to the side wall includes the supporting surface e and the cable supporting portion which are engaged with the supporting rollers.

On the basis of the above-mentioned outer slide rail, the inner slide rail of the present invention may specifically include a top wall, side walls 6012 located at both sides of the top wall 6011 and extending downward, and supporting walls 6013 extending outward from the bottom of the side walls 6012, the front and rear end portions of the side walls 6012 are provided with supporting roller shafts 604, both ends of the supporting roller shafts 604 are provided with supporting rollers 605, the front and rear end portions of the supporting wall 6013 at each side are provided with auxiliary roller shafts, both ends of the auxiliary roller shafts are provided with auxiliary rollers 606, and both the supporting rollers and the auxiliary rollers are usually mounted on the corresponding roller shafts through bearings. The cable support is located outside the support wall.

The cross section of the inner slide rail is approximately of a figure-of-a-letter structure as seen in the figure.

In the above embodiment, the supporting wall 6013 is provided with a plurality of notches 6013a at the middle portion, and all the notches 6013a form a locking window.

The supporting wall 6013 in the above embodiments smoothly transitions with the corresponding side wall of the inner sliding rail 601, and the supporting wall 6013 extends obliquely upward, so that the distance between the supporting wall 6013 and the corresponding side wall is gradually increased along the transverse direction, which is beneficial to the installation of the auxiliary roller 606 and the auxiliary roller shaft 604. The specific location of the mounting hole 6013b for the auxiliary roller is shown.

The electric slide rail assembly of the present invention includes the outer slide rail having the above structure, so that the above technical effects of the outer slide rail are also achieved, and will not be described in detail herein.

The electric slide rail assembly and the outer slide rail provided by the invention are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides an outer slide rail of electronic slide rail set spare, its characterized in that, is including outer slide rail (101) body that forms the cavity, the opening has still been seted up to the cavity so that interior slide rail assembly is connected with outside seat, the cavity inner wall of outer slide rail (101) body includes:

the matching part is used for matching with the sliding mechanism of the inner sliding rail assembly;

and the cable supporting part is used for slidably supporting a cable assembly (104) of the electric slide rail assembly arranged in the cavity.

2. The outer slide rail of an electric slide rail assembly according to claim 1, wherein the cavity wall of the cavity comprises a bottom wall (1015), the inner surface of the bottom wall (1015) has a recess with an inward opening, the recess is provided with a first mounting structure for being fixed with a vehicle floor, the cable support portion is provided on the bottom wall (1015), and the cable support portion is higher than the groove bottom of the recess.

3. The outer slide rail of an electric slide rail assembly according to claim 2, wherein the cavity wall of the cavity further comprises a side wall (1014) connected with a bottom wall (1015), and a top wall, the opening is a longitudinal opening provided on the top wall, a turning section is further connected between the side wall on each side and the corresponding top wall, the turning section comprises a first section (1016) and a second section (1017) which are connected in sequence, the outer end of the first section (1016) is connected with the side wall, the inner end extends inwards and is connected with the second section (1017), the second section (1017) extends upwards and is connected with the top wall, and the first section (1016), the side wall and the cable support portion of the bottom wall form a space for accommodating a cable assembly.

4. The outer slide rail (101) of a power slide rail assembly according to claim 3, wherein the sliding mechanism of the inner slide rail assembly comprises a supporting roller (605) and an auxiliary roller (606), the supporting roller (605) is located at the bottom of the inner slide rail (601) of the inner slide rail assembly, the partial area of the bottom wall (1015) located at the inner side of the cable supporting part forms the rolling surface of the supporting roller (605), and the rolling surface is higher than the groove bottom of the recess; the auxiliary rollers (606) are arranged above the two sides of the inner slide rail in an inclined mode, and the inner wall of the second section forms a surface matched with the auxiliary rollers to roll.

5. The outer slide rail (101) of a power slide rail assembly according to claim 3 wherein one of the top walls on the left and right sides is provided with a second mounting structure that is fitted with a plastic rack (102), and the width of the top wall provided with the second mounting structure is greater than the width of the other top wall.

6. The outer slide rail (101) of an electric slide rail assembly according to claim 3, wherein the inner edge of the top wall has a bent section (a) bent downward, the bent section (a) is provided with a locking structure for engaging and cooperating with a locking and locking assembly of the electric slide rail assembly, and the longitudinal opening is formed between the two bent sections (a).

7. The outer slide rail (101) of a power slide rail assembly according to any one of claims 2 to 6 wherein the recess is a longitudinally extending groove located in the middle of the bottom wall, the bottom wall of the groove being a horizontal plane, the first mounting structure being located at the horizontal plane, and portions of the groove extending outwardly from the notch to either side forming portions of the mating portion and the cable support portion.

8. An electric slide rail assembly comprises an outer slide rail (101) and an inner slide rail assembly; the outer slide rail (101) is the outer slide rail (101) of the electric slide rail assembly according to any one of claims 1 to 7, the inner slide rail of the inner slide rail assembly comprises a top wall (6011), side walls (6012) located on two sides of the top wall (6011) and extending downwards, and a support wall (6013) extending outwards from the bottom of the side walls, support roller shafts (604) are arranged at the front end and the rear end of the side walls, an auxiliary roller shaft is arranged at the front end and the rear end of the support wall (6013) on each side, and the cable support portion is located outside the support wall.

9. The motorized slide assembly according to claim 8, wherein the support wall is provided with a plurality of notches (6013a) in a middle portion thereof, all notches (6013a) forming the locking window.

10. The motorized slide assembly according to claim 8, wherein the support walls (6013) are rounded off from the respective side walls, and the support walls (6013) extend diagonally upward.

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