CN110667353A

CN110667353A - Outer sliding type mechanism and automobile panoramic sunroof

Info

Publication number: CN110667353A
Application number: CN201911129849.8A
Authority: CN
Inventors: 吴贲华; 尹昌镇; 李奇训; 金壮允
Original assignee: Jiangsu Anchor Post Traffic Science And Technology Co Ltd
Current assignee: Jiangsu Tiemao Glass Co Ltd
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2020-01-10
Anticipated expiration: 2039-11-18
Also published as: CN110667353B

Abstract

The invention relates to an external sliding type mechanism and a panoramic sunroof of an automobile, wherein the mechanism comprises a support arm assembly, a driving slide block assembly, a guide rail assembly and a rear slide block assembly, and the support arm assembly comprises: the front side arm is provided with a first sliding block and an adjustable first fixed point, and the position of the first fixed point can be adjusted according to the length of the support arm assembly; the rear side arm is provided with an adjustable second fixed point, and the position of the second fixed point can be adjusted according to the length of the support arm assembly; the connecting piece is inserted into the first fixing point and the second fixing point to fixedly connect the front side arm with the rear side arm; the drive block assembly includes: the control sliding block is fixedly connected with the supporting arm assembly, and a third sliding block is further arranged on the control sliding block; and the driving mechanism is connected with the control slide block. The invention can adjust the position of the connecting piece inserted into the first fixing point and the second fixing point according to the characteristics of the automobile, and adjust the supporting arm assembly, so that the supporting arm assembly can be applied to various automobile types.

Description

Outer sliding type mechanism and automobile panoramic sunroof

Technical Field

The invention relates to glass moving equipment of an automobile panoramic sunroof, in particular to an external sliding type mechanism and the automobile panoramic sunroof.

Background

Panoramic skylights are in fact relative to ordinary skylights. Generally, the panoramic sunroof has a large area, and even a whole glass roof can be seen in a scene above the panoramic sunroof sitting in a vehicle; at present, more panoramic skylights are formed by a front piece of glass and a rear piece of glass, so that a front seat and a rear seat have the feeling of the skylights respectively.

The panoramic sunroof in the prior art generally comprises a guide rail track, moving glass arranged on the guide rail track and a driving mechanism, wherein the driving mechanism drives the moving glass to slide back and forth on the guide rail track, so that the panoramic sunroof is opened and closed.

In the process of implementing the invention, the inventor finds that the prior art has at least the following problems:

in the panoramic sunroof of the related art, unstable elements such as abnormal noise and insufficient rigidity are generally generated at the time of starting, and therefore, a sliding mechanism is urgently needed to improve the functionality and stability of the panoramic sunroof of the related art.

Disclosure of Invention

In order to solve the technical problems in the prior art, the embodiment of the invention provides an outward sliding type mechanism and an automobile panoramic sunroof. The specific technical scheme is as follows:

in a first aspect, there is provided an out-slide mechanism comprising:

a support arm assembly comprising:

the front side arm is provided with a first sliding block and an adjustable first fixed point, and the position of the first fixed point can be adjusted according to the length of the support arm assembly;

the rear side arm is provided with an adjustable second fixed point, and the position of the second fixed point can be adjusted according to the length of the support arm assembly; and

the connecting piece is inserted into the first fixing point and the second fixing point to fixedly connect the front side arm with the rear side arm;

a drive block assembly comprising:

the control sliding block is fixedly connected with the supporting arm assembly, and a third sliding block is further arranged on the control sliding block;

and

the driving mechanism is connected with the control slide block, a second slide block is further arranged on the driving mechanism, and the driving mechanism drives the support arm assembly to slide by driving the control slide block;

a guide rail assembly comprising:

the front side guide rail is provided with a sliding groove which is oppositely arranged;

the front positioning block is arranged on one side of the sliding grooves and positioned at the front end of the sliding groove on one side, a front rotating slide way communicated with the sliding groove on one side is further arranged on the front positioning block, and the first sliding block and the front rotating slide way are correspondingly arranged in the sliding groove on one side;

the rear positioning block is arranged on the sliding groove on the other side of the opposite sliding grooves and is positioned at the rear end of the sliding groove on the other side, a rear rotating slide way communicated with the sliding groove on the other side is further arranged on the rear positioning block, the third slide block and the rear rotating slide way are correspondingly arranged in the sliding groove on the other side, and the second slide block is arranged in the sliding groove on the other side; and

the rear side guide rail is arranged on the rear side of the guide rail assembly corresponding to the front side guide rail; and

the rear sliding block assembly is arranged on the rear side guide rail and is connected with the rear side arm, and the rear sliding block assembly can be driven by the support arm assembly to slide along the rear side guide rail;

when the supporting arm assembly slides, the first sliding block enters the front rotating slide way, the third sliding block enters the rear rotating slide way to drive the supporting arm assembly to open, the second sliding block slides in the slide groove on the other side, and the rear sliding block assembly slides on the rear side guide rail to drive the supporting arm assembly to slide.

In a first possible implementation manner of the first aspect, the adjustable first fixing point is a plurality of first insertion holes arranged at regular intervals, and the connecting piece is selectively inserted into at least one of the first insertion holes.

In a second possible implementation manner of the first aspect, the adjustable second fixing point is a plurality of second insertion holes arranged at regular intervals, and the connecting piece is selectively inserted into at least one of the second insertion holes.

In a third possible implementation form of the first aspect, the connector is a push pin.

In a fourth possible implementation manner of the first aspect, the rear side arm is further provided with an elongated slot and a blocking portion, one side of the elongated slot is provided with an inlet, the control slider is further provided with a connecting buckle, when the control slider is connected with the support arm assembly, the connecting buckle enters the elongated slot by penetrating through the inlet, the position of the connecting buckle is adjusted, the control slider is rotated to be abutted against the lower side of the blocking portion, and the connecting buckle is in close fit with the upper side and the lower side of the elongated slot.

In a fifth possible implementation manner of the first aspect, the front rotating slideway and the rear rotating slideway are arc slideways which are bent upwards.

In a sixth possible implementation manner of the first aspect, the driving mechanism further includes:

the driving slide block is connected with the control slide block;

the plastic-coated driving flexible shaft is arranged at the lower end of the driving slide block; and

the driving motor and the plastic-coated driving flexible shaft are used for controlling the movement of the plastic-coated driving flexible shaft.

In a seventh possible implementation manner of the first aspect, the rear shoe assembly further includes:

the triangular plate is pivoted with the rear side arm, and when the support arm assembly slides, the triangular plate can be driven by the rear side arm to rotate by an angle and slide along the rear side guide rail;

the fourth sliding block is arranged at one corner of the lower end of the triangular plate and is positioned in the rear side guide rail; and

and the fifth sliding block is arranged at the other corner of the lower end of the triangular plate and is positioned outside the rear guide rail, and can enter the rear guide rail after the triangular plate rotates by an angle and slide along the rear guide rail under the driving of the triangular plate.

In a second aspect, there is provided a panoramic sunroof for an automobile, comprising:

moving the glass assembly; and

two outer sliding mechanisms according to any one of the first aspect are disposed on two sides of the moving glass assembly, and the moving glass assembly is driven by the outer sliding mechanisms to open and slide.

In a first possible implementation of the second aspect, the front side of the moving glass assembly is connected to the front side arm and the rear side of the moving glass assembly is connected to the rear slider assembly.

Compared with the prior art, the invention has the advantages that:

the invention can adjust the position of the connecting piece inserted into the first fixing point and the second fixing point according to the characteristics of the automobile, and adjust the supporting arm assembly, so that the supporting arm assembly can be applied to various automobile types. Meanwhile, the control slide block and the support arm assembly are connected in a clamping groove mode, so that the problem of large left-right shaking can be effectively solved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of a moving glass assembly disposed on an external sliding mechanism according to one or two embodiments of the present invention.

FIG. 2 is a schematic diagram of a support arm assembly according to an embodiment of the invention.

Figure 3 is a schematic exploded view of a support arm assembly according to one embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a control slider according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a driving mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of the control slider mounted on the support arm assembly according to an embodiment of the present invention.

FIG. 7 is a schematic view of the structure of the driving slider assembly mounted on the supporting arm assembly according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a rail assembly according to an embodiment of the present invention.

FIG. 9 is a schematic view of a structure in which the driving slider assembly and the supporting arm assembly are disposed on the rail assembly according to an embodiment of the present invention.

FIG. 10 is a schematic structural diagram of a rear slide block assembly according to an embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a panoramic sunroof for an automobile according to a second embodiment of the present invention.

Fig. 12 is a schematic structural view illustrating opening of a panoramic sunroof of an automobile according to a second embodiment of the present invention.

Fig. 13 is a schematic structural view of the sliding of the panoramic sunroof of the automobile according to the second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1, a schematic structural view of a moving glass assembly 7 disposed on an outward sliding mechanism 1 according to an embodiment of the present invention is shown. Outer sliding mechanism 1 includes support arm assembly 2, drive slider assembly 3, guide rail component 4 and back slider assembly 5, wherein:

referring to fig. 2, a structural diagram of a support arm assembly 2 according to an embodiment of the invention is shown. The support arm assembly 2 includes a front side arm 21, a rear side arm 22, and a connector 23. To further describe the support arm assembly 2 shown in fig. 2, please refer to fig. 3, which shows an exploded view of the support arm assembly 2 according to an embodiment of the present invention. The front arm 21 is provided with a first slide block 211 and an adjustable first fixing point 212, the position of the first fixing point 212 can be adjusted according to the length of the support arm assembly 2, the rear arm 22 is provided with an adjustable second fixing point 221, the position of the second fixing point 221 can be adjusted according to the length of the support arm assembly 2, the support arm assembly 2 inserts the connecting piece 23 into the first fixing point 212 and the second fixing point 221 by adjusting the corresponding positions of the first fixing point 212 and the second fixing point 221, so that the front arm 21 and the rear arm 22 are fixedly connected, the length of the support arm assembly 2 is adjusted, and the support arm assembly can be applied to the range of various vehicle types.

In a preferred embodiment, referring to fig. 3 again, the adjustable first fixing point 212 is a plurality of first insertion holes 2121 uniformly spaced apart from each other, the connecting element 23 is selectively inserted into at least one first insertion hole 2121 of the plurality of first insertion holes 2121, and when the position of the first fixing point 212 is adjusted, the connecting element 23 is selectively inserted into the first insertion hole 2121 corresponding to the position of the first fixing point 212, but not limited thereto.

In a preferred embodiment, referring to fig. 3 again, the adjustable second fixing point 221 is a plurality of second insertion holes 2211 uniformly spaced, the connecting member 23 can be selectively inserted into at least one second insertion hole 2211 of the plurality of second insertion holes 2211, and when the position of the second fixing point 221 is adjusted, the connecting member 23 is selectively inserted into the first insertion hole 2121 corresponding to the position of the second fixing point 221, but not limited thereto.

In another preferred embodiment, referring to fig. 3 again, the connecting member 23 is a push pin, and when adjusting the length of the support arm assembly 2, the positions of the first insertion hole 2121 and the second insertion hole 2211 are selected to coincide with each other according to the length of the support arm assembly 2, and the push pin is inserted into the first insertion hole 2121 and the second insertion hole 2211, so as to fixedly connect the front side arm 21 and the rear side arm 22, but not limited thereto.

Referring to fig. 7, a schematic structural diagram of the driving slider assembly 3 mounted on the supporting arm assembly 2 according to an embodiment of the present invention is shown. The driving slider assembly 3 includes a control slider 31 and a driving mechanism 32. Referring to fig. 4, a schematic structural diagram of the control slider 31 according to an embodiment of the invention is shown. The control slider 31 is fixedly connected with the support arm assembly 2, and a third slider (not shown in the figure) is further arranged on the control slider 31 and is used for being mounted on the guide rail assembly 4. The driving mechanism 32 is connected with the control slider 31, the driving mechanism 32 drives the control slider 31 to slide, so as to drive the support arm assembly 2 to slide, and the driving mechanism 32 is further provided with a second slider 323. Referring to fig. 5, a schematic structural diagram of the driving mechanism 32 according to an embodiment of the invention is shown. The driving mechanism 32 disclosed in this embodiment further includes a driving slider 321, a plastic-coated driving flexible shaft 322, and a driving motor (not shown in the figure), the second slider 323 is disposed on the driving slider 321, the driving slider 321 is connected to the control slider 31 for driving the control slider 31 to move, the plastic-coated driving flexible shaft 322 is disposed at the lower end of the driving slider 321, and the driving motor and the plastic-coated driving flexible shaft 322 are for controlling the movement of the plastic-coated driving flexible shaft 322, but not limited thereto.

In a preferred embodiment, referring to fig. 3 and fig. 4, the rear side arm 22 is further provided with a strip-shaped slot 222 and a blocking portion 223, one side of the strip-shaped slot 222 is provided with an inlet 2221, and the control slider 31 is further provided with a connecting buckle 311. Referring to fig. 6, a schematic structural diagram of the control slider 31 mounted on the support arm assembly 2 according to an embodiment of the invention is shown. When the control slider 31 is connected with the support arm assembly 2, the connecting buckle 311 passes through the inlet port 2221 and moves into the elongated slot 222, the position of the connecting buckle 311 is adjusted, the control slider 31 is rotated to enable the upper and lower ends of the connecting buckle 311 to be tightly matched with the upper and lower sides of the elongated slot 222, and the connecting buckle 311 is abutted to the lower side of the blocking portion 223 to prevent the rebound of the connecting buckle, so that the control slider 31 is fixedly connected with the support arm assembly 2, and the control slider is connected with the support arm assembly in a slot form, so that the problem of large left-right shaking can be effectively prevented, but not limited thereto.

Referring to fig. 8, a schematic structural diagram of the guide rail assembly 4 according to an embodiment of the invention is shown. The guide rail assembly 4 includes a front side guide rail 41, a front positioning block 42, a rear positioning block 43 and a rear side guide rail 44, the front side guide rail 41 has a sliding

slot

411, 412 disposed oppositely, the front positioning block 42 is disposed on one sliding slot 411 of the sliding

slots

411, 412 and located at the front end of one sliding slot 411, the front positioning block 42 further has a front rotating slideway 421 communicated with one sliding slot 411, and the front rotating slideway 421 is preferably an arc slideway bending upwards, but not limited thereto. Referring to fig. 9, a schematic structural diagram of the driving slider assembly 3 and the supporting arm assembly 2 disposed on the guiding rail assembly 4 according to an embodiment of the invention is shown. The first slider 211 and the front rotating slide 421 are correspondingly disposed in the slide slot 411 on one side.

The rear positioning block 43 is disposed on the other side sliding groove 412 of the

opposite sliding grooves

411, 412 and is located at the rear end of the other side sliding groove 412, the rear positioning block 43 further has a rear sliding way 431 communicated with the other side sliding groove 412, and the rear sliding way 431 is preferably an arc sliding way bending upwards, but not limited thereto. Referring to fig. 9 again, the third sliding block and the backward sliding way 431 are disposed in the sliding groove 412 on the other side, and the second sliding block 323 is disposed in the sliding groove 412 on the other side.

The rear side rail 44 is provided on the rear side of the rail assembly 4 corresponding to the front side rail 41. The rear guide rail 44 of the present embodiment is a single sliding groove, and is disposed at the rear side of the guide rail assembly 4 and located at the side of the sliding groove 411, but not limited thereto.

Referring to fig. 10, a schematic structural diagram of the rear slide block assembly 5 according to an embodiment of the invention is shown. The rear sliding block assembly 5 is arranged on the rear side guide rail 44 and connected with the rear side arm 22, and the rear sliding block assembly 5 can be driven by the support arm assembly 2 to slide along the rear side guide rail 44. The rear slider assembly 5 disclosed in this embodiment further includes a triangular plate 51, a fourth slider 52 and a fifth slider 53, the triangular plate 51 is pivoted to the rear side arm 22, and when the support arm assembly 2 slides, the triangular plate 51 can be driven by the rear side arm 22 to rotate by an angle and slide along the rear side rail 44, the fourth slider 52 is disposed at one corner of the lower end of the triangular plate 51 and is located in the rear side rail 44, the fifth slider 53 is disposed at the other corner of the lower end of the triangular plate 51 and is located outside the rear side rail 44, and after the triangular plate 51 rotates by an angle, the fifth slider 53 can enter the rear side rail 44 and is driven by the triangular plate 51 to slide along the rear side rail 44, but not limited thereto.

When the outer sliding type mechanism 1 of this embodiment is driven, the driving motor drives the plastic-coated driving flexible shaft 322 to rotate, the driving sliding block 321 is driven to slide, and the driving control sliding block 31 is driven to slide, so as to drive the supporting arm assembly 2 to slide, and when the supporting arm assembly 2 slides, the first sliding block 211 enters the front rotating slideway 421, the third sliding block enters the rear rotating slideway 431, and drives the supporting arm assembly 2 to open, when the first sliding block 211 enters the end of the front rotating slideway 421, and the third sliding block enters the end of the rear rotating slideway 431, the supporting arm assembly 2 is completely opened, the second sliding block 323 slides in the sliding groove 412 on the other side, and the rear sliding block assembly 5 slides on the rear guiding rail 44, and drives the supporting arm assembly 2 to continue sliding.

Referring to fig. 11, a schematic structural diagram of a panoramic sunroof 6 of an automobile according to a second embodiment of the present invention is shown. The panoramic sunroof 6 of the automobile comprises a moving glass assembly 7 and two outward sliding mechanisms 1 shown in the above embodiment, wherein:

the two external sliding mechanisms 1 are arranged on two sides of the moving glass assembly 7, and the moving glass assembly 7 is driven by the external sliding mechanisms 1 to open and slide. Referring to fig. 1 again, the front side of the moving glass assembly 7 disclosed in this embodiment is connected to the front side arm 21, and the rear side of the moving glass assembly 7 is connected to the rear sliding block assembly 5, which is connected to a corner at the upper end of the triangular plate 51 and connected to the rear sliding block assembly 5, when the triangular plate 51 rotates by an angle, the corner at the upper end thereof can rotate upward to drive the rear end of the moving glass assembly 7 to open upward, but not limited thereto.

When the panoramic sunroof 6 of the present embodiment is opened and slides, please refer to fig. 12, which shows a schematic structural diagram of the panoramic sunroof 6 of the present invention according to the second embodiment of the present invention. The driving motor drives the plastic-coated driving flexible shaft 322 to rotate, drives the driving sliding block 321 to slide, and drives the control sliding block 31 to slide, so as to drive the supporting arm assembly 2 to slide, and when the supporting arm assembly 2 slides, the first sliding block 211 enters the front rotating slideway 421, the third sliding block enters the rear rotating slideway 431, so as to drive the supporting arm assembly 2 to open, and drive the front end of the movable glass assembly 7 to open upwards.

Meanwhile, the triangular plate 51 rotates by an angle, and one angle at the upper end of the triangular plate can rotate upwards to drive the rear end of the movable glass assembly 7 to open upwards, the fourth slide block 52 slides in the rear side guide rail 44, and the fifth slide block 53 enters the rear side guide rail 44 to slide and is driven by the triangular plate 51 to slide along the rear side guide rail 44.

When the first slider 211 enters the end of the front rotating slideway 421 and the third slider enters the end of the rear rotating slideway 431, the supporting arm assembly 2 is completely opened, please refer to fig. 13, which shows a sliding structural schematic diagram of the panoramic sunroof 6 of the automobile according to the second embodiment of the present invention. The second slide block 323 continues to slide in the slide groove 412 on the other side, and the fourth slide block 52 and the fifth slide block 53 continue to slide on the rear side guide rail 44, so as to drive the support arm assembly 2 to continue to slide, and thus drive the moving glass assembly 7 to slide.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. An out-slide mechanism, comprising:

a support arm assembly comprising:

the rear side arm is provided with an adjustable second fixing point, and the position of the second fixing point can be adjusted according to the length of the support arm assembly; and

a connecting member inserted into the first fixing point and the second fixing point to fixedly connect the front arm and the rear arm;

a drive block assembly comprising:

the control sliding block is fixedly connected with the supporting arm assembly, and a third sliding block is further arranged on the control sliding block; and

the driving mechanism is connected with the control slide block, a second slide block is further arranged on the driving mechanism, and the driving mechanism drives the control slide block to slide so as to drive the support arm assembly to slide;

a guide rail assembly comprising:

the front positioning block is arranged on the sliding groove on one side of the opposite sliding grooves and is positioned at the front end of the sliding groove on one side, a front rotating slide way communicated with the sliding groove on one side is further arranged on the front positioning block, and the first sliding block and the front rotating slide way are correspondingly arranged in the sliding groove on one side;

the rear sliding block assembly is arranged on the rear side guide rail and connected with the rear side arm, and can be driven by the support arm assembly to slide along the rear side guide rail;

when the support arm assembly slides, the first sliding block enters the front rotating slide way, the third sliding block enters the rear rotating slide way to drive the support arm assembly to be opened, the second sliding block slides in the sliding groove on the other side, and the rear sliding block assembly slides on the rear side guide rail to drive the support arm assembly to slide.

2. The out-slide mechanism as claimed in claim 1, wherein said adjustable first anchor point is a plurality of first sockets spaced apart from one another, said connector being selectively insertable into at least one of said first sockets.

3. The outward slide of claim 1, wherein said adjustable second anchor point is a plurality of evenly spaced second sockets, and said connector is selectively insertable into at least one of said second sockets of said plurality of second sockets.

4. The outward slide of claim 1, wherein the connector is a push pin.

5. The outward sliding mechanism according to claim 1, wherein the rear side arm further has an elongated slot and a stop portion, one side of the elongated slot has an inlet, the control slider further has a connecting buckle, when the control slider is connected to the support arm assembly, the connecting buckle passes through the inlet and enters the elongated slot, the position of the connecting buckle is adjusted, the control slider is rotated to abut against the stop portion, and the connecting buckle is tightly fitted to the upper and lower sides of the elongated slot.

6. The out-slide mechanism as claimed in claim 1, wherein said forward and rearward slides are curved upwardly.

7. The out-slide mechanism as claimed in claim 1, wherein said drive mechanism further comprises:

the driving sliding block is connected with the control sliding block;

the plastic-coated driving flexible shaft is arranged at the lower end of the driving sliding block; and

the driving motor is connected with the plastic-coated driving flexible shaft and used for controlling the movement of the plastic-coated driving flexible shaft.

8. The out-slide mechanism as claimed in claim 1, wherein said rear slider assembly further comprises:

and the fifth sliding block is arranged at the other corner of the lower end of the triangular plate, is positioned on the outer side of the rear side guide rail, and can enter the rear side guide rail after the triangular plate rotates by the angle, and slides along the rear side guide rail by being driven by the triangular plate.

9. An automotive panoramic sunroof, comprising:

moving the glass assembly; and

two outer sliding mechanisms according to any of claims 1-8, arranged on both sides of the moving glass assembly, which is driven by the outer sliding mechanisms to open and slide.

10. The panoramic sunroof of claim 9, wherein a front side of the moving glass assembly is connected to the front side arm and a rear side of the moving glass assembly is connected to the rear slider assembly.