CN111301119B

CN111301119B - Sliding window assembly

Info

Publication number: CN111301119B
Application number: CN202010139475.4A
Authority: CN
Inventors: 王丽强; 陈华; 关金亮; 刘贤平; 张科
Original assignee: Fuyao Glass Industry Group Co Ltd
Current assignee: Fuyao Glass Industry Group Co Ltd
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2022-02-18
Anticipated expiration: 2040-03-03
Also published as: CN111301119A

Abstract

The invention relates to the technical field of sliding windows, in particular to a sliding window assembly, which comprises at least one fixed window and a sliding window, wherein the at least one fixed window is provided with an opening, an upper transverse guide rail and a lower transverse guide rail, the sliding window is slidably arranged between the upper transverse guide rail and the lower transverse guide rail and is used for opening or closing the opening, and the sliding window assembly is characterized in that: a guide element is arranged in the lower transverse guide rail, the sliding window is in sliding fit with the guide element, at least one end part of the guide element is provided with a limiting block, and the limiting block is fixed on the lower transverse guide rail and used for limiting the transverse movement of the guide element relative to the lower transverse guide rail; the outer side wall of the guide element, which is opposite to the lower transverse guide rail, is provided with a first combining part, and the inner side wall of the lower transverse guide rail is provided with a second combining part which is matched with the first combining part and used for limiting the vertical movement of the guide element, which is opposite to the lower transverse guide rail. Has the advantages that: simple structure, quick installation, convenient maintenance and good stability.

Description

Sliding window assembly

The technical field is as follows:

the invention relates to the technical field of sliding windows, in particular to a sliding window assembly, which is particularly suitable for a vehicle rear bumper sliding window assembly.

Background art:

in order to meet the ventilation requirement in a vehicle and improve the riding comfort of passengers in a rear row, a sliding window assembly is generally mounted on the vehicle, and the sliding window assembly is assembled and integrated with a fixed window through one or more small window assemblies, so that the movable opening and closing function of the small window on a guide rail of the fixed window is realized. Sliding windows on existing vehicles can be classified into electric type and manual type. The manual type means that the sliding window is opened and closed through manual operation; the electrodynamic type indicates that the automatic start-stop of sliding window is realized through motor drive cable assembly. Among them, what generally adopted on the backstop sliding window is electronic stay cord structure.

For example, in US8938914B2, a motor drives a cable in a cable assembly, which in turn drives a guide bracket to move along a guide element in a guide rail, thereby opening and closing a movable glass. The guide element is also provided with cable guides at both ends thereof, which serve to retain the guide element in the guide rail, and which are internally perforated for guiding the cables located therein. The cable guider is complex in structure, the guide element, the cable guider and the cable need to be sleeved together firstly, external force is applied to the guide element, the cable guider and the cable are kept, and the guide element, the cable guider and the cable are installed on the guide rail simultaneously, so that the installation difficulty is increased. And, still need to pass through extra fastener fixed mounting on the guide rail, it is inconvenient to install and dismantle.

Therefore, a new type of fixing structure for the guide member is required.

The invention content is as follows:

the invention aims to solve the technical problem of the existing sliding window assembly, and provides a sliding window assembly which is simple in structure, quick to install, convenient to maintain and good in stability.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a sliding window assembly, includes at least one fixed window and sliding window, be equipped with the opening on at least one fixed window, be located the last transverse guide of the top of opening and being located the lower transverse guide of open-ended below, sliding window slidable install between last transverse guide and the lower transverse guide for open or close its characterized in that: a guide element is arranged in the lower transverse guide rail, the sliding window is in sliding fit with the guide element, at least one end part of the guide element is provided with a limit block, and the limit block is fixed on the lower transverse guide rail and used for limiting the transverse movement of the guide element relative to the lower transverse guide rail; the outer side wall of the guide element, which is opposite to the lower transverse guide rail, is provided with a first combining part, and the inner side wall of the lower transverse guide rail is provided with a second combining part which is matched with the first combining part and used for limiting the vertical movement of the guide element, which is opposite to the lower transverse guide rail.

Further, a guide bracket is fixed to a lower portion of the sliding window, and the guide bracket is slidably installed in the guide member.

Further, the first engaging portion is a first lateral projection, the second engaging portion is a second lateral projection, and during installation of the guide element into the lower lateral rail, the guide element is lowered in a vertical direction to a first position relative to the lower lateral rail such that a height of the first lateral projection is lowered below the second lateral projection for sliding the guide element laterally towards the lower lateral rail to a second position such that an upper surface of the first lateral projection abuts a lower surface of the second lateral projection.

Furthermore, a drain hole is further formed in the inner side wall of the lower transverse guide rail, and the drain hole is located at the lower portion of the second transverse protrusion and is adjacent to the second transverse protrusion.

Further, the stopper with at least one lateral wall that the transverse guide is relative down is equipped with first vertical recess, the inside wall of transverse guide down be equipped with first vertical protruding of first vertical recess matched with, will the stopper is installed the in-process of transverse guide down, first vertical protruding card is gone into along vertical card first vertical recess for the restriction the stopper is relative transverse motion of transverse guide down.

Furthermore, the number of the first vertical grooves and the number of the first vertical protrusions are two, the first vertical grooves are respectively formed in two opposite outer side walls of the limiting block, and the first vertical protrusions are respectively formed in two opposite inner side walls of the lower transverse guide rail.

Furthermore, at least one outer side wall of the limiting block is further provided with a second vertical groove located above the first vertical groove, a second vertical protrusion located above the first vertical protrusion is further arranged on the inner side wall of the lower transverse guide rail, and in the process that the limiting block is installed on the lower transverse guide rail, the second vertical protrusion slides into the second vertical groove along the first vertical groove and is clamped in the second vertical groove to limit the limiting block to move vertically relative to the lower transverse guide rail.

Further, a through hole is further formed between the first vertical protrusion and the second vertical protrusion, and the upper end and the lower end of the through hole are adjacent to the second vertical protrusion and the first vertical protrusion respectively.

Further, the at least one fixed window includes a first fixed window panel and a second fixed window panel, and the opening is located between the first and second fixed window panels.

Further, the at least one fixed window includes a single fixed window panel, and the opening extends through the single fixed window panel.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1) the structure is simple and compact, the transverse positioning and the vertical positioning can be respectively carried out, and the mounting precision and the stability are good;

2) the guide element and the limiting block are installed in sequence, so that the guide element and the limiting block are kept together without applying external force to be installed synchronously, and the installation difficulty is reduced;

3) the installation and the disassembly are rapid and convenient, and the maintenance is convenient;

4) the guide element and the limiting block are not required to be fixed by an additional fastener, and can be directly formed into an integrated fastening structure through integrated injection molding, so that the post-assembly procedures are reduced, and the installation is quick and convenient.

Description of the drawings:

FIG. 1 is a schematic view of a sliding window assembly according to the present invention;

FIG. 2 is a partial cross-sectional view A-A of FIG. 1;

FIG. 3 is a partial cross-sectional view B-B of FIG. 1;

FIG. 4 is a partial cross-sectional view of C-C of FIG. 1;

FIG. 5 is an enlarged view of the direction D in FIG. 4;

reference numerals in the drawings indicate: 1 is a fixed window, 11 is an opening, 2 is a sliding window, 21 is a guide bracket, 3 is an upper transverse guide rail, 4 is a lower transverse guide rail, 41 is a second transverse protrusion, 42 is a drain hole, 43 is a first vertical protrusion, 44 is a second vertical protrusion, 45 is a through hole, 5 is a guide element, 51 is a first transverse protrusion, 6 is a limit block, 61 is a first vertical groove, and 62 is a second vertical groove.

The specific implementation mode is as follows:

in the description of the present invention, it is to be understood that the terms "upper", "lower", "lateral", "vertical", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element 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. In the description of the present invention, "glass" may be inorganic glass, or may be plastic glass made of organic polymer or the like. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1 to 5, the sliding window assembly according to the present invention includes at least one fixed window 1 and a sliding window 2, wherein the at least one fixed window 1 is provided with an opening 11, an upper transverse rail 3 located above the opening 11, and a lower transverse rail 4 located below the opening 11, the upper transverse rail 3 and the lower transverse rail 4 may be fixed on the fixed window 1 by injection molding or gluing, and the sliding window 2 is slidably installed between the upper transverse rail 3 and the lower transverse rail 4 for opening or closing the opening 11, and is characterized in that: a guide element 5 is arranged in the lower transverse guide rail 4, the sliding window 2 is in sliding fit with the guide element 5, at least one end part of the guide element 5 is provided with a limit block 6, and the limit block 6 is fixed on the lower transverse guide rail 4 and used for limiting the transverse movement of the guide element 5 relative to the lower transverse guide rail 4; the outer side wall of the guide element 5, which is opposite to the lower transverse guide rail 4, is provided with a first combining part, and the inner side wall of the lower transverse guide rail 4 is provided with a second combining part matched with the first combining part, so that the vertical movement of the guide element 5, which is opposite to the lower transverse guide rail 4, is limited.

The upper cross rail 3 is located above the opening 11, and "above" means located above or above, and may be a region where both do not overlap in the height direction, or may be a region where both overlap. Similarly, the lower cross rail 4 is located below the opening 11, and "below" means below or lower, and may be a region where there is no overlap or a certain overlap in the height direction.

During the mounting process, the guide element 5 can be mounted into the lower transverse rail 4, said guide element 5 being positioned vertically by means of the first and second joints. Then, the stopper 6 is mounted on the end of the guide member 5, and the guide member 5 is laterally positioned by the stopper 6. So that the guide element 5 is stably fixed to the lower transverse rail 4.

In the present invention, the two stoppers are preferably provided, and the stoppers respectively restrict both end portions of the guide member. It should be understood that it is also possible to provide a stop only at one end of the guide element, the other end of which can be stopped directly against the end of the lower transverse rail.

Further, a guide bracket 21 is fixed at the lower part of the sliding window 2, and the guide bracket 21 is slidably mounted in the guide element 5, so that the sliding window 2 is in sliding fit with the guide element 5, thereby realizing the opening and closing of the sliding window. When adopting the electrodynamic type sliding window, can the horizontal both ends of guide bracket 21 are connected the rope respectively and are connected the rope and connect, then draw the rope through the cable assembly, realize the lateral sliding of sliding window.

Further, as shown in fig. 3, the first coupling portion is a first transverse projection 51 and the second coupling portion is a second transverse projection 41, and during the installation of the guide element 5 into the lower transverse rail 4, the guide element 5 is lowered in the vertical direction relative to the lower transverse rail 4 to a first position P₁So that the height of the first transverse projection 51 drops below the second transverse projection 41 for sliding the guide element 5 transversely to the lower transverse rail 4 into the second position P₂So that the upper surface of said first transverse projection 51 abuts the lower surface of the second transverse projection 41. It should be understood that the number of said first and second

lateral projections

51, 41 can be chosen according to the actual needs, preferably two pairs, provided at the two ends of said guide element 5 respectively.

During the installation process, firstly, the components are put into operationThe guide element 5 and said lower transverse guide 4 are aligned and said first 51 and second 41 transverse projections are misaligned; then, the guide member 5 is pressed down to the first position P₁The height of the first transverse projection 51 now drops below said second transverse projection 41; then, the guide element 5 is moved in the transverse direction such that the first transverse projection 51 is moved to a second position P below the second transverse projection 41₂The upper surface of said first transverse projection 51 now abuts against the lower surface of the second transverse projection 41. After the installation is completed, the vertical positioning and fixing of the guide element 5 is achieved without the lower transverse guide 4 being detached from the vertical.

Further, as shown in fig. 3, a drainage hole 42 is further formed on an inner side wall of the lower transverse rail 4, and the drainage hole 42 is located at a lower portion of the second transverse protrusion 41 and adjacent to the second transverse protrusion 41. In the present invention, the lower transverse rail 4 is preferably an integral injection molding plastic part, and the second transverse protrusion 41 is disposed above the drain hole 42, so that a movable insert can be disposed at the drain hole during injection molding, thereby facilitating demolding after injection molding, and directly injecting the second transverse protrusion 41.

Further, at least one outer side wall, opposite to the lower transverse guide rail 4, of the limiting block 6 is provided with a first vertical groove 61, the inner side wall of the lower transverse guide rail 4 is provided with a first vertical protrusion 43 matched with the first vertical groove 61, and in the process that the limiting block 6 is installed on the lower transverse guide rail 4, the first vertical protrusion 43 is vertically clamped into the first vertical groove 61 to limit the limiting block 6 to move transversely relative to the lower transverse guide rail 4. After the installation, the stop block 6 is fixed on the lower transverse guide 4, thereby positioning and fixing the guide element 5 transversely.

It should be understood that, the above-mentioned vertical recess and vertical protruding cooperation structure between stopper and the lower transverse guide can also set up in reverse, namely stopper 6 with at least one lateral wall that lower transverse guide 4 is relative is equipped with the third vertical arch, the inside wall of lower transverse guide 4 be equipped with the third vertical recess of third vertical protruding matched with, will in the process of lower transverse guide 4 is installed to stopper 6, the third vertical arch is gone into along vertical card third vertical recess for the restriction stopper 6 is relative the lateral motion of lower transverse guide 4.

Further, the number of the first vertical grooves 61 and the number of the first vertical protrusions 43 are two, the first vertical grooves 61 are respectively arranged on two opposite outer side walls of the limiting block 6, and the first vertical protrusions 43 are respectively arranged on two opposite inner side walls of the lower transverse guide rail 4.

Further, as shown in fig. 2, at least one outer side wall of the limiting block 6 is further provided with a second vertical groove 62 located above the first vertical groove 61, the inner side wall of the lower transverse rail 4 is further provided with a second vertical protrusion 44 located above the first vertical protrusion 43, and in the process of installing the limiting block 6 on the lower transverse rail 4, the second vertical protrusion 44 slides into and is clamped in the second vertical groove 62 along the first vertical groove 61 to limit the vertical movement of the limiting block 6 relative to the lower transverse rail 4. To facilitate the sliding of the second vertical protrusion 44, the second vertical protrusion 44 may be provided in a wedge-shaped structure. In the installation process, the groove and the protrusion are aligned, and then the limiting block 6 is directly pressed downwards along the vertical direction, so that the limiting block 6 is installed and fixed on the lower transverse guide rail 4.

In the present invention, it is particularly advantageous to align the first and second

vertical protrusions

43 and 44, and in this case, as shown in fig. 2, a through hole 45 may be provided between the first and second

vertical protrusions

43 and 44, and the upper end and the lower end of the through hole 45 are adjacent to the second and first

vertical protrusions

44 and 43, respectively. Because lower transverse guide 4 generally is the integrative injection moulding working of plastics, through setting up the through-hole structure, can be used for placing movable inserts, conveniently moulds plastics the drawing of patterns after accomplishing, thereby simultaneously be in first vertical arch 43 of integrative injection moulding play and second vertical arch 44 on lower transverse guide 4's the inside wall.

It should be understood that, the above-mentioned two vertical grooves and the vertical raised matching structure between stopper and the lower transverse guide rail can also be set up in reverse, that is at least one lateral wall of stopper 6 still is equipped with and is located the fourth vertical protrusion of the bellied below of third vertical, the inside wall of lower transverse guide 4 still is equipped with and is located the fourth vertical groove of the below of third vertical groove, in with stopper 6 installs the in-process of lower transverse guide 4, the fourth vertical protrusion slides in and the joint is in the fourth vertical groove along third vertical groove for the restriction stopper 6 is relative the vertical motion of lower transverse guide 4.

In the present invention, the fixed window may be a single piece or may be a multi-piece. When monolithic, the at least one fixed window 1 comprises a single fixed window panel through which the opening 11 extends, the opening being generally centrally located in the fixed window panel. When a multi-piece window is used, the at least one fixed window 1 comprises a first fixed window panel and a second fixed window panel, with the opening 11 located between the first and second fixed window panels. In this case, the two fixed window panels may be connected together by injection molding a frame structure around the peripheries of the two fixed window panels, and both ends of the upper and lower cross rails may be fixed to the first and second fixed window panels by injection molding or gluing, respectively.

The above description specifically describes a sliding window assembly according to the present invention, but the present invention is not limited to the above description, and therefore, any improvements, equivalent modifications, substitutions and the like made in accordance with the technical gist of the present invention are within the scope of the present invention.

Claims

1. A sliding window assembly, includes at least one fixed window (1) and sliding window (2), be equipped with opening (11) on at least one fixed window (1), be located last transverse guide (3) of the top of opening (11) and be located lower transverse guide (4) of the below of opening (11), install sliding window (2) slidable go up between transverse guide (3) and lower transverse guide (4), be used for opening or close opening (11), its characterized in that: a guide element (5) is arranged in the lower transverse guide rail (4), the sliding window (2) is in sliding fit with the guide element (5), at least one end part of the guide element (5) is provided with a limit block (6), the limit block (6) and the guide element (5) can move freely in the vertical direction, and the limit block (6) is clamped and fixed on the lower transverse guide rail (4) along the vertical direction and is used for limiting the transverse movement of the guide element (5) relative to the lower transverse guide rail (4); a first combining part is arranged on the outer side wall, opposite to the lower transverse guide rail (4), of the guide element (5), a second combining part matched with the first combining part is arranged on the inner side wall of the lower transverse guide rail (4), and the upper surface of the first combining part is abutted to the lower surface of the second combining part and used for limiting the vertical movement of the guide element (5) relative to the lower transverse guide rail (4); the first coupling portion is a first transverse projection (51) and the second coupling portion is a second transverse projection (41), and during mounting of the guide element (5) in the lower transverse rail (4), the guide element (5) is lowered in the vertical direction relative to the lower transverse rail (4) to a first position such that the height of the first transverse projection (51) is lowered below the second transverse projection (41) for sliding the guide element (5) laterally towards the lower transverse rail (4) to a second position such that the upper surface of the first transverse projection (51) abuts the lower surface of the second transverse projection (41).

2. The sliding window assembly of claim 1, wherein: a guide bracket (21) is fixed at the lower part of the sliding window (2), and the guide bracket (21) is slidably arranged in the guide element (5).

3. The sliding window assembly of claim 1, wherein: and a drain hole (42) is also formed in the inner side wall of the lower transverse guide rail (4), and the drain hole (42) is positioned at the lower part of the second transverse protrusion (41) and is adjacent to the second transverse protrusion (41).

4. The sliding window assembly of claim 1, wherein: the utility model discloses a horizontal guide rail, including stopper (6), horizontal guide rail (4) under, the stopper (6) with at least one lateral wall that horizontal guide rail (4) is relative is equipped with first vertical recess down, the inside wall of horizontal guide rail (4) down be equipped with the first vertical arch of first vertical recess matched with, will the in-process of horizontal guide rail (4) is installed down in stopper (6), first vertical arch is gone into along vertical card first vertical recess for the restriction stopper (6) are relative the lateral motion of horizontal guide rail (4) down.

5. The sliding window assembly of claim 4, wherein: the first vertical grooves and the first vertical protrusions are two, the first vertical grooves are respectively arranged on two opposite outer side walls of the limiting block (6), and the first vertical protrusions are respectively arranged on two opposite inner side walls of the lower transverse guide rail (4).

6. The sliding window assembly of claim 4, wherein: at least one lateral wall of stopper (6) still is equipped with and is located the vertical recess of second of the top of first vertical recess, the inside wall of horizontal guide rail (4) still is equipped with and is located the vertical arch of second of first vertical bellied top down, will the in-process of horizontal guide rail (4) is down installed to stopper (6), the vertical arch of second slides in and the joint is in along first vertical recess in the vertical recess of second, be used for the restriction stopper (6) is relative the vertical motion of horizontal guide rail (4) down.

7. The sliding window assembly of claim 6, wherein: still be equipped with through-hole (45) between first vertical arch and the second vertical arch, the upper end and the lower extreme of through-hole (45) respectively with second vertical arch and first vertical arch are adjacent.

8. The sliding window assembly of claim 1, wherein: the at least one fixed window (1) comprises a first fixed window panel and a second fixed window panel, the opening (11) being located between the first and second fixed window panels.

9. The sliding window assembly of claim 1, wherein: the at least one fixed window (1) comprises a single fixed window panel through which the opening (11) extends.