CN220262541U - Glass sliding mechanism and sliding window - Google Patents

Abstract

The utility model relates to the technical field of vehicle glass sliding, in particular to a glass sliding mechanism and a sliding window, which comprise middle piece glass and guide rails arranged at two opposite edges of the middle piece glass, wherein the guide rails are provided with a mounting cavity and a chute part arranged in the mounting cavity, the chute part is abutted against the edges of the middle piece glass, at least one chute part is internally provided with a raised head and a tongue edge which are oppositely arranged, and the raised head and the tongue edge are abutted against two side surfaces of the middle piece glass in the thickness direction respectively. The utility model not only ensures the sealing effect between the guide rail and the middle piece of glass, but also can reduce the formation of abnormal sound when the middle piece of glass slides.

Description

Glass sliding mechanism and sliding window

Technical Field

The utility model relates to the technical field of vehicle glass sliding, in particular to a glass sliding mechanism and a sliding window.

Background

The vehicle austral window, sliding sash not only can play the effect of keeping out the wind and improving the interior air flowability of car, however present austral window, sliding sash's structure is comparatively complicated, and it is provided with a piece in glass to slide between two outer glass to be used for sealing in the sealing strip of piece glass limit portion is bonding on outer glass one by one, and not only the assembly is loaded down with trivial details, and sealed effect is not good moreover. Meanwhile, abnormal sound is easy to occur in the sliding process of the middle glass.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the glass sliding mechanism and the sliding window not only ensure the sealing effect between the guide rail and the middle piece of glass, but also can reduce the formation of abnormal sound when the middle piece of glass slides.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a glass slide mechanism, includes well piece glass and sets up the guide rail at the opposite both sides portion of well piece glass, the guide rail has an installation cavity and sets up the spout part in the installation cavity, spout part and the limit portion of well piece glass are supported and are leaned on, and at least one spout part is interior to have the protruding head and the tongue limit of relative setting, protruding head and tongue limit are supported respectively on the both sides face in the thickness direction of well piece glass.

Further, the chute member further comprises a base plate and wing plates, wherein one of the wing plates is respectively arranged on two side surfaces of the base plate in the thickness direction of the middle glass, at least one of the wing plates is attached to the inner wall of the guide rail, and the raised heads and the tongue edges are respectively arranged on the corresponding wing plates.

Further, the base plate, the wing plates and the raised heads are made of polypropylene materials, and the tongue edges are made of thermoplastic vulcanized rubber.

Further, the glass sliding mechanism further comprises a sealing frame, wherein the sealing frame comprises a first sealing tongue edge arranged along the edge outline of the middle piece of glass, and the first sealing tongue edge abuts against one side face of the middle piece of glass in the thickness direction.

Further, the sealing frame further includes a second sealing tongue which abuts on an edge portion of one side face in the thickness direction of the middle piece of glass, and which is located in the sliding direction of the middle piece of glass.

Further, the first sealing tongue edge is inclined in a direction approaching to the center of the middle piece of glass, and the second sealing tongue edge is inclined away from the center of the middle piece of glass.

Further, the sealing frame further includes a third sealing tongue that abuts against an edge portion of a side surface of the center glass that is not in contact with the chute member in the thickness direction.

Further, the third sealing tongue edge is inclined in a direction approaching or departing from the center of the middle sheet glass.

In order to solve the technical problems, the utility model adopts another technical scheme that:

a sliding window comprising an outer pane of glass and a glass sliding mechanism according to any one of the above schemes, the guide rail being provided on the outer pane of glass.

Further, the sliding window further comprises a push-pull device, the push-pull device comprises a first lock catch and a second lock catch which are mutually clamped, the first lock catch is arranged on the middle piece of glass, and the second lock catch is arranged on the outer piece of glass.

The utility model has the beneficial effects that: the opposite sides of the middle piece of glass are installed in the guide rail with the installation cavity on the outer piece of glass, and the sliding groove part is abutted against the sides of the middle piece of glass, so that the middle piece of glass can slide on the outer piece of glass smoothly along the guide rail. At the same time, the convex heads and the tongue edges which are respectively abutted against the two side surfaces of the middle piece of glass in the thickness direction are additionally arranged on at least one sliding groove part, so that the tightness between the sliding groove part and the middle piece of glass is improved, and the abnormal sound of the middle piece of glass during sliding is reduced.

Drawings

Fig. 1 is a schematic front view of a sliding window according to an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of a sliding window in A-A direction in FIG. 1;

FIG. 3 is an enlarged view of a portion B of the sliding window of FIG. 2;

FIG. 4 is an enlarged view of a portion C of the sliding window of FIG. 2;

FIG. 5 is a schematic view of a sectional structure of the sliding window in the direction D-D in FIG. 1;

FIG. 6 is an enlarged view of the sliding window E of FIG. 5;

FIG. 7 is a schematic view of a chute member of a vehicle glass slide mechanism in accordance with an embodiment of the utility model;

FIG. 8 is a schematic view showing a structure of a seal frame of a glass slide mechanism for a vehicle according to an embodiment of the present utility model;

description of the reference numerals:

1. middle piece glass;

2. a guide rail; 21. a mounting chamber;

22. a chute member; 221. a nose; 222. tongue edge; 223. a substrate; 224. a wing plate;

23. a guide bracket;

3. a sealing frame; 31. a first sealing tongue; 32. a second sealing tongue; 33. a third sealing tongue;

4. an outer sheet glass;

5. a push-pull device; 51. a first lock catch; 52. a second lock catch;

6. a rib.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

The vehicle austral window, sliding sash not only can play the effect of keeping out the wind and improving the interior air flowability of car, however present austral window, sliding sash's structure is comparatively complicated, and it is provided with a piece in glass to slide between two outer glass to be used for sealing in the sealing strip of piece glass limit portion is bonding on outer glass one by one, and not only the assembly is loaded down with trivial details, and sealed effect is not good moreover. Meanwhile, abnormal sound is easy to occur in the sliding process of the middle glass.

Based on this, this application provides a glass slide mechanism and austral window, sliding sash, can solve well piece glass in the slip in-process, and sealed effect is poor, and easily produces the problem of abnormal sound.

Referring to fig. 1, the sliding window provided in the embodiment of the present application includes an outer sheet glass 4 and a glass sliding mechanism, wherein a guide rail 2 of the glass sliding mechanism is disposed on the outer sheet glass 4, and a middle sheet glass 1 of the glass sliding mechanism is slidably disposed on the guide rail 2. The outer sheet glass 4 and the middle sheet glass 1 may be windshields on vehicles, or may be other windshields.

Referring to fig. 1, 5 and 6, in order to avoid the middle glass 1 sliding along the guide rail 2 under the unmanned operation, in one embodiment, the sliding window further includes a push-pull device 5, where the push-pull device 5 includes a first latch 51 and a second latch 52 that are clamped to each other, the first latch 51 is disposed on the middle glass 1, and the second latch 52 is disposed on the outer glass 4.

Referring to fig. 2 and 3, in a first possible embodiment, the glass sliding mechanism includes a middle glass 1 and rails 2 disposed at two opposite sides of the middle glass 1, the rails 2 having a mounting chamber 21 and a chute member 22 disposed in the mounting chamber 21, the chute member 22 abutting against the sides of the middle glass 1, and at least one chute member 22 having a raised head 221 and a tongue 222 disposed opposite to each other, the raised head 221 and the tongue 222 abutting against two opposite sides of the middle glass 1 in the thickness direction. The chute member 22 is abutted against both side surfaces in the thickness direction of the middle glass sheet 1 by the projection 221 and the tongue 222, respectively, so that the projection 221 and the tongue 222 ensure effective interference with the abutted portion of the middle glass sheet 1 during sliding of the middle glass sheet 1, not only ensuring the tightness between the chute member 22 and the middle glass sheet 1, but also reducing the formation of abnormal noise during sliding of the middle glass sheet 1.

Referring to fig. 4, in a second possible embodiment, at least one chute member 22 is provided with a guide bracket 23, and preferably the guide bracket 23 has an L-shaped cross section. The sliding direction of the middle glass sheet 1 is guided by the guide bracket 23, so that the sliding stability of the middle glass sheet 1 can be improved, and the possibility of abnormal sound formation during the sliding of the middle glass sheet 1 is further reduced.

Referring to fig. 3 and 4, in a third possible embodiment, in the first possible embodiment or the second possible embodiment, the chute member 22 further includes a base plate 223 and wing plates 224, wherein the two side surfaces of the base plate 223 in the thickness direction of the middle glass sheet 1 are respectively provided with one of the wing plates 224, the two wing plates 224 are attached to the inner walls corresponding to the guide rail 2, and the raised head 221 and the tongue edge 222 are respectively provided on the corresponding wing plate 224. Wherein, the base plate 223, the wing plate 224 and the raised head 221 are preferably made of polypropylene material, and the tongue 222 is thermoplastic vulcanized rubber. The tongue 222 of thermoplastic vulcanized rubber and the raised head 221 of polypropylene material can ensure the sealing property between the chute member 22 and the middle glass 1, and the tongue 222 of thermoplastic vulcanized rubber can be effectively bonded with the wing 224 of polypropylene material without using an additional adhesive, thereby ensuring the subsequent use and operability. The chute member 22 is connected to the inner wall of the guide rail 2 by a wing 224 to ensure the reliability of the installation of the chute member 22. The projection 221 and the tongue 222 are respectively abutted against both side surfaces in the thickness direction of the center glass 1 by the wing plates 224.

Referring to fig. 3, 4 and 7, in a fourth possible embodiment, in the first possible embodiment or the second possible embodiment, the chute member 22 further includes a base plate 223 and wing plates 224, wherein the two side surfaces of the base plate 223 in the thickness direction of the middle glass sheet 1 are respectively provided with one of the wing plates 224, and one of the wing plates 224 is attached to the inner wall of the guide rail 2, and one end surface of the other wing plate 224 facing the inner wall of the guide rail 2 is provided with at least one rib 6 extending along the length direction of the base plate 223, and the rib 6 is abutted against the inner wall of the guide rail 2. The nose 221 and the tongue 222 are respectively disposed on the corresponding wing 224. Wherein, the base plate 223, the wing plate 224 and the raised head 221 are preferably made of polypropylene material, and the tongue 222 is thermoplastic vulcanized rubber. The tongue 222 of thermoplastic vulcanized rubber and the raised head 221 of polypropylene material can ensure the sealing property between the chute member 22 and the middle glass 1, and the tongue 222 of thermoplastic vulcanized rubber can be adhered to the wing 224 of polypropylene material without using an additional adhesive, thereby ensuring the subsequent use and operability. The chute member 22 is connected to the inner wall of the guide rail 2 by one of the wings 224 to ensure the reliability of the installation of the chute member 22. The chute member 22 can be reinforced by adding ribs 6 to the other wing 224. The projection 221 and the tongue 222 are respectively abutted against both side surfaces in the thickness direction of the center glass 1 by the wing plates 224.

Referring to fig. 3 and 4, in a fifth possible embodiment, in the third possible embodiment or the fourth possible embodiment, a supporting leg is provided on an end surface of the substrate 223 away from the middle glass sheet 1 and adhered to the guide rail 2 or an end surface of the substrate 223 away from the middle glass sheet 1 and abuts against the guide rail 2.

Referring to fig. 2, 3, 4, 5, 6 and 8, in one embodiment, the glass sliding mechanism further includes a sealing frame 3, where the sealing frame 3 includes a first sealing tongue 31 disposed along a side contour of the middle glass sheet 1, and the first sealing tongue 31 abuts against one side surface of the middle glass sheet 1 in a thickness direction. The first sealing tongue edge 31 sealed at the edge part of the middle piece of glass 1 is integrated to form the sealing frame 3, so that the sealing assembly efficiency of the glass sliding mechanism is improved, and the fault tolerance of the sealing assembly is also improved.

Referring to fig. 5, 6 and 8, in one embodiment, the sealing frame 3 further includes a second sealing tongue 32, where the second sealing tongue 32 abuts against a side portion of one side surface of the middle glass sheet 1 in the thickness direction, and the second sealing tongue 32 is located in the sliding direction of the middle glass sheet 1. Wherein, preferably, the first sealing tongue edge 31 is inclined in a direction approaching the center of the middle sheet glass 1, and the second sealing tongue edge 32 is inclined away from the center of the middle sheet glass 1. The sealing frame 3 is additionally provided with a second sealing tongue edge 32 which is abutted against the sliding direction of the middle piece of glass 1, and the sealing effect of the middle piece of glass 1 in the sliding direction can be ensured by matching the second sealing tongue edge 32 with the first sealing tongue edge 31.

Alternatively, as shown in fig. 6 and 8, the sealing frame 3 further includes a third sealing tongue edge 33, the third sealing tongue edge 33 abuts against an edge portion of one side face in the thickness direction of the middle glass sheet 1, and the third sealing tongue edge 33 is located in the sliding direction of the middle glass sheet 1. Wherein preferably the third sealing tongue 33 is inclined in a direction towards or away from the centre of the middle sheet of glass 1. The sealing frame 3 is additionally provided with a third sealing tongue edge 33 which is abutted against the sliding direction of the middle piece of glass 1, and the sealing effect of the middle piece of glass 1 in the sliding direction can be ensured by matching the third sealing tongue edge 33 with the first sealing tongue edge 31 and the second sealing tongue edge 32.

Specifically, the third sealing tongue 33 is located only on one side of the middle glass 1 near the push-pull device 5 in consideration of the amount of resistance during sliding of the middle glass 1.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (10)

1. A glass slide mechanism, characterized in that: the guide rail comprises a mounting cavity and a chute component arranged in the mounting cavity, wherein the chute component is abutted against the edge of the middle piece of glass, at least one chute component is internally provided with a raised head and a tongue edge which are oppositely arranged, and the raised head and the tongue edge are respectively abutted against two side surfaces of the middle piece of glass in the thickness direction.

2. The glass slide mechanism according to claim 1, wherein: the sliding groove part further comprises a base plate and wing plates, wherein one wing plate is respectively arranged on two side surfaces of the base plate in the thickness direction of the middle piece of glass, at least one wing plate is attached to the inner wall of the guide rail, and the raised heads and the tongue edges are respectively arranged on the corresponding wing plates.

3. The glass slide mechanism according to claim 2, wherein: the base plate, the wing plates and the raised heads are made of polypropylene materials, and the tongue edges are made of thermoplastic vulcanized rubber.

4. The glass slide mechanism according to claim 1, wherein: the sealing frame comprises a first sealing tongue edge arranged along the edge outline of the middle piece of glass, and the first sealing tongue edge abuts against one side face of the middle piece of glass in the thickness direction.

5. The glass slide mechanism according to claim 4, wherein: the sealing frame further comprises a second sealing tongue edge, the second sealing tongue edge is abutted against the edge part of one side face of the middle piece glass in the thickness direction, and the second sealing tongue edge is located in the sliding direction of the middle piece glass.

6. The glass slide mechanism according to claim 5, wherein: the first sealing tongue edge is inclined in a direction close to the center of the middle piece of glass, and the second sealing tongue edge is inclined away from the center of the middle piece of glass.

7. The glass slide mechanism according to claim 4 or 5, wherein: the sealing frame further comprises a third sealing tongue edge, the third sealing tongue edge is abutted against the edge part of one side face of the middle piece glass in the thickness direction, and the third sealing tongue edge is located in the sliding direction of the middle piece glass.

8. The glass slide mechanism according to claim 7, wherein: the third sealing tongue edge is inclined in a direction approaching or departing from the center of the middle piece of glass.

9. A sliding window, characterized in that: the sliding window comprises an outer sheet glass and the glass sliding mechanism of any one of claims 1 to 8, and the guide rail is arranged on the outer sheet glass.

10. A sliding window according to claim 9, wherein: the glass comprises a middle piece of glass, and is characterized by further comprising a push-pull device, wherein the push-pull device comprises a first lock catch and a second lock catch which are mutually clamped, the first lock catch is arranged on the middle piece of glass, and the second lock catch is arranged on the outer piece of glass.