A novel sliding window track structure
By designing water-blocking and sealing structures in the sliding window track structure, the problem of insufficient sealing of existing sliding windows is solved, achieving an effective waterproof effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHENGDU HELE DOORS
- Filing Date
- 2025-06-30
- Publication Date
- 2026-06-30
AI Technical Summary
The existing sliding windows are not airtight enough, which leads to water entering the room.
A novel sliding window track structure is designed, including a track body, a water-blocking structure, and a sealing structure. Through the height difference design of the inner edge, inner slide, outer slide, and outer edge, combined with sliding seal and fixed pulley, an effective water-blocking and sealing system is formed. A drain outlet is provided on the outer slide.
It effectively prevents outdoor water from entering the room, improves the waterproof performance of the window sash, and enhances the sealing performance.
Smart Images

Figure CN224432301U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of sliding window technology, and more specifically, to a novel sliding window track structure. Background Technology
[0002] Among existing building doors and windows, sliding windows are favored for their advantages such as not taking up indoor space, easy opening, and large ventilation area. However, they also have the problem of poor sealing, which can lead to water entering the room.
[0003] A common approach in existing technology is to use rubber strips or felt strips to seal the gap between the bottom of the fan and the track. However, this simple sealing method still cannot prevent rain from seeping into the room. Utility Model Content
[0004] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a new type of sliding window track structure.
[0005] The objective of this utility model is achieved through the following technical solution:
[0006] A novel sliding window track structure, installed on a wall, includes a track body, a water-blocking structure to prevent outdoor water from entering the indoor side, and two lower taps spaced apart for installing glass. Both lower taps are sealed to the water-blocking structure, with one lower tap positioned closer to the indoor side and the other closer to the outdoor side.
[0007] Furthermore, in this utility model, the aforementioned water-blocking structure includes an inner baffle, an inner slide rail, an outer slide rail, and an outer baffle sequentially spaced on the aforementioned track body. The aforementioned inner baffle is disposed near the indoor side, and the aforementioned outer baffle is disposed near the outdoor side. In the vertical direction, the top of the aforementioned inner baffle is higher than the top of the aforementioned inner slide rail, the top of the aforementioned inner slide rail is higher than the top of the aforementioned outer slide rail, and the top of the aforementioned outer slide rail is higher than the top of the aforementioned outer baffle. The aforementioned inner slide rail and the aforementioned inner baffle are both slidably and sealingly connected to the aforementioned lower tap disposed near the indoor side. The aforementioned outer slide rail is slidably and sealingly connected to the aforementioned lower tap disposed near the outdoor side.
[0008] Furthermore, in this utility model, any of the aforementioned lower supports includes a lower support body, the lower support body having a top end and a bottom end facing away from each other, the glass being installed on its top end, and the bottom end being provided with a hook-edge support and a straight-edge support at intervals, the side of the hook-edge support near the straight-edge support being provided with a groove for installing a sealing strip; a fixed pulley is rotatably provided between the hook-edge support and the straight-edge support.
[0009] Furthermore, in this utility model, the inner side of the inner retaining edge near the inner slide rail is also provided with a groove for installing a sealing strip; the inner retaining edge is slidably and sealingly connected to the straight edge of the lower pusher provided near the indoor side; the inner slide rail is slidably and sealingly connected to the hook edge of the lower pusher provided near the indoor side; and the fixed pulley is slidably connected to the inner slide rail.
[0010] Furthermore, in this utility model, the outer slide rail is slidably and sealingly connected to the hook edge of the lower pusher located near the outside of the room; the top end of the outer slide rail is slidably connected to the fixed pulley.
[0011] Furthermore, in this utility model, a sealing structure is provided between the inner slide and the outer slide, and the straight edge of the lower pusher provided near the outdoor side is slidably and sealingly connected with the sealing structure.
[0012] Furthermore, in this utility model, drainage outlets are provided on both the outer slide rail and the outer edge.
[0013] Furthermore, in this invention, in the vertical direction, the bottom end of the hooked edge is lower than the bottom end of the straight edge.
[0014] The beneficial effects of this utility model are:
[0015] This utility model provides a novel sliding window track structure. By designing a water-blocking structure and a sealing structure on the track structure, outdoor water can be effectively prevented from flowing into the room when the two lower stems slide, thereby improving the waterproof performance of the window sash. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the track structure according to an embodiment of the present utility model;
[0017] Figure 2 This is a schematic diagram of the lower pusher structure according to an embodiment of the present utility model;
[0018] Figure 3 This is a schematic diagram of the assembly structure of the glass mounted on the track structure according to an embodiment of the present invention.
[0019] In the diagram: 1-track body; 2-water-blocking structure; 201-inner edge; 202-inner slide rail; 203-outer slide rail; 204-outer edge; 3-glass; 4-lower lifter; 401-lower lifter body; 402-hooked edge lifter; 403-straight edge lifter; 404-fixed pulley; 5-slot; 6-sealing structure; 7-drainage outlet; 8-sealing strip. Detailed Implementation
[0020] The technical solution of this utility model will be clearly and completely described below with reference to the embodiments. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0021] Please see Figures 1-3 This utility model provides a technical solution:
[0022] A novel sliding window track structure is installed on a wall. The track structure includes a track body 1, a water-blocking structure 2 installed on the track body 1 to prevent water from the outside from entering the inside, and two lower taps 4 spaced apart for installing glass 3. Both lower taps 4 are sealed to the water-blocking structure 2, and one lower tap 4 is installed closer to the inside and the other lower tap 4 is installed closer to the outside.
[0023] Specifically, refer to Figure 1 In this embodiment, the water-blocking structure 2 includes an inner baffle 201, an inner slide rail 202, an outer slide rail 203, and an outer baffle 204, which are sequentially and spaced apart on the track body 1. The inner baffle 201 is installed closer to the indoor side, and the outer baffle 204 is installed closer to the outdoor side. In the vertical direction, the top of the inner baffle 201 is higher than the top of the inner slide rail 202, the top of the inner slide rail 202 is higher than the top of the outer slide rail 203, and the top of the outer slide rail 203 is higher than the top of the outer baffle 204. The inner slide rail 202 and the inner baffle 201 are both slidably and sealingly connected to the lower tap 4 installed closer to the indoor side; the outer slide rail 203 is slidably and sealingly connected to the lower tap 4 installed closer to the outdoor side.
[0024] from Figure 1 or Figure 3 From the perspective of the outer edge 204, the left side is outdoors, and the right side of the inner edge 201 is indoors. From the outside to the inside, the outer edge 204, the outer slide rail 203, the inner slide rail 202 and the inner edge 201 gradually form a height difference, which effectively plays a role in blocking water (i.e. preventing outdoor water from flowing into the indoors).
[0025] Reference Figure 2 In this embodiment, any lower tap 4 includes a lower tap body 401, which has a top end and a bottom end facing away from each other. The glass 3 is installed on its top end, and hook-edge taps 402 and straight-edge taps 403 are installed at intervals on its bottom end. A groove 5 for installing a sealing strip 8 is installed on the side of the hook-edge tap 402 near the straight-edge tap 403. A fixed pulley 404 is also rotatably arranged between the hook-edge tap 402 and the straight-edge tap 403 (the fixed pulley 404 is rotatably mounted on a rotating shaft, and the two ends of the rotating shaft are respectively connected to the hook-edge tap 402 and the straight-edge tap 403).
[0026] Specifically, in this embodiment, the inner side 201 near the inner slide 202 is also equipped with a slot 5 for installing the sealing strip 8. The inner side 201 is slidably and sealingly connected with the straight edge 403 of the lower pusher 4 installed near the indoor side; the inner slide 202 is sealedly connected with the hook edge 402 of the lower pusher 4 installed near the indoor side; and the fixed pulley 404 is slidably connected with the inner slide 202.
[0027] Specifically, in this embodiment, the outer slide 203 is slidably and sealed to the hook edge 402 of the lower tap 4 installed near the outdoor side; the top of the outer slide 203 is slidably connected to the fixed pulley 404.
[0028] from Figure 3 From a certain perspective, when two pieces of glass 3 are respectively installed on the inner edge 201, the inner slide rail 202, and the outer slide rail 203 via two lower taps 4, in order to prevent water between the two pieces of glass 3 from entering between the inner edge 201 and the inner slide rail 202, a sealing structure 6 is also installed between the inner slide rail 202 and the outer slide rail 203 in this embodiment. The straight edge tap 403 of the lower tap 4 installed near the outdoor side slides and is slidably sealed to the sealing structure 6. This sealing structure 6 can also be a sealing strip 8.
[0029] To facilitate the drainage of rainwater flowing onto the track body 1 during rain, drainage outlets 7 are provided on both the outer slide 203 and the outer edge 204 in this embodiment. Figure 1 From the perspective of the outside, the drain outlets 7 are all located at the bottom of the outer slide 203 and the outer edge 204.
[0030] To facilitate safe loading and unloading of the lower mast 4 from indoors, in this embodiment, there is a height difference between the straight-edge mast 403 and the hook-edge mast 402 on any lower mast 4. Specifically, refer to... Figure 2 In the vertical direction, the bottom of the hook edge 402 is lower than the bottom of the straight edge 403 (that is, the vertical dimension of the hook edge 402 is greater than the vertical dimension of the straight edge 403).
[0031] Working principle:
[0032] like Figure 3 As shown, before assembly, three sealing strips 8 can be installed in the three slots 5 respectively, and the sealing structure 6 can be installed between the inner slide 202 and the outer slide 203. Then, the two lower pushers 4 are installed on the inner slide 202 and the outer slide 203 respectively. At this time, the sealing strip 8 on the hook edge pusher 402 of the left lower pusher 4 abuts against the left side of the outer slide 203; the straight edge pusher 403 of the left lower pusher 4 abuts against the sealing structure 6; the sealing strip 8 on the hook edge pusher 402 of the right lower pusher 4 abuts against the left side of the inner slide 202; and the sealing strip 8 on the inner stop 201 abuts against the right side of the straight edge pusher 403 of the right lower pusher 4. During the sliding of the two lower pushers 4 on the inner slide 202 and the outer slide 203 respectively, the sealing strips 8 and the sealing structure 6 can play a sealing role.
[0033] The above description is merely a preferred embodiment of this utility model. It should be understood that this utility model is not limited to the forms disclosed herein and should not be construed as excluding other embodiments. It can be used in various other combinations, modifications, and environments, and can be altered within the scope of the concept described herein through the above teachings or related technologies or knowledge. Modifications and variations made by those skilled in the art that do not depart from the spirit and scope of this utility model should be protected within the scope of the appended claims.
Claims
1. A novel sliding window track structure, characterized in that: The track structure installed on the wall includes a track body (1), on which a water-blocking structure (2) is provided to prevent outdoor water from entering the indoor side, and two lower brackets (4) spaced apart for installing glass (3). Both lower brackets (4) are sealed to the water-blocking structure (2), and one of the lower brackets (4) is located closer to the indoor side and the other lower bracket (4) is located closer to the outdoor side.
2. The novel sliding window track structure according to claim 1, characterized in that: The water-blocking structure (2) includes an inner baffle (201), an inner slide rail (202), an outer slide rail (203), and an outer baffle (204) arranged sequentially on the track body (1). The inner baffle (201) is located near the indoor side, and the outer baffle (204) is located near the outdoor side. In the vertical direction, the top of the inner baffle (201) is higher than the top of the inner slide rail (202), the top of the inner slide rail (202) is higher than the top of the outer slide rail (203), and the top of the outer slide rail (203) is higher than the top of the outer baffle (204). The inner slide rail (202) and the inner baffle (201) are both slidably and sealingly connected to the lower tap (4) located near the indoor side. The outer slide rail (203) is slidably and sealingly connected to the lower tap (4) located near the outdoor side.
3. The novel sliding window track structure according to claim 2, characterized in that: Any of the lower taps (4) includes a lower tap body (401), the lower tap body (401) has a top end and a bottom end facing away from each other, the glass (3) is installed on the top end, and the bottom end is provided with a hook-edge tap (402) and a straight-edge tap (403) spaced apart, the hook-edge tap (402) is provided with a groove (5) for installing a sealing strip (8) on the side near the straight-edge tap (403); a fixed pulley (404) is rotatably provided between the hook-edge tap (402) and the straight-edge tap (403).
4. The novel sliding window track structure according to claim 3, characterized in that: The inner sidewall (201) near the inner slide rail (202) is also provided with a slot (5) for installing the sealing strip (8). The inner sidewall (201) is slidably and sealingly connected to the straight edge (403) of the lower tap (4) near the indoor side. The inner slide rail (202) is sealedly connected to the hook edge (402) of the lower tap (4) near the indoor side. The fixed pulley (404) is slidably connected to the inner slide rail (202).
5. The novel sliding window track structure according to claim 3, characterized in that: The outer slide rail (203) is slidably and sealed to the hook edge (402) of the lower tap (4) located near the outdoor side; the top of the outer slide rail (203) is slidably connected to the fixed pulley (404).
6. The novel sliding window track structure according to claim 2, characterized in that: A sealing structure (6) is also provided between the inner slide (202) and the outer slide (203), and the straight edge (403) of the lower tap (4) located near the outdoor side is slidably and sealingly connected with the sealing structure (6).
7. A novel sliding window track structure according to claim 2, characterized in that: Drainage outlets (7) are provided on both the outer slide (203) and the outer baffle (204).
8. The novel sliding window track structure according to claim 3, characterized in that: In the vertical direction, the bottom end of the hook edge (402) is lower than the bottom end of the straight edge (403).