A new type of suspended sliding window support profile
By using a split window sash structure and thermal break connection, the heat insulation and sound insulation performance of the floating sliding window is improved, the production and maintenance costs are reduced, and a two-tone design for the inside and outside is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN XINGHUAN ALUMINUM CO LTD
- Filing Date
- 2025-05-20
- Publication Date
- 2026-06-09
AI Technical Summary
The existing H-shaped connectors for floating sliding windows do not have heat insulation and sound insulation functions, and the sealing strips are expensive and inconvenient to maintain.
The window sash structure adopts a split design, with the outer sash frame and the inner sash frame connected by a thermal break. A partition frame and a sealing strip are installed on the window frame. The thermal break improves the heat insulation and sound insulation effect while reducing costs.
It improves the heat insulation and sound insulation of the suspended sliding window, reduces production and maintenance costs, and meets the requirement of dual-color interior and exterior.
Smart Images

Figure CN224338846U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of door and window technology, specifically relating to a new type of floating sliding window support profile. Background Technology
[0002] Floating sliding windows are a new type of window design that achieves the floating and sliding function of the window sash through a hidden track. Specifically, the track is concealed within the window frame, then an I-shaped connector is installed at the bottom of the window sash, and pulleys that travel on the track are installed at the bottom of the I-shaped connector. Finally, a sealing strip is installed between adjacent window sashes to separate multiple sashes. Figure 1 As shown, the existing H-shaped connectors of the floating sliding windows are integrally molded and are not thermal break structures. They do not have functions such as heat insulation, sound insulation and noise reduction. For some users, windows need to meet the requirements of dual-color interior and exterior, which is difficult to achieve with the existing H-shaped connectors. In addition, the sealing strip is one piece, which is costly and inconvenient for daily window maintenance. Utility Model Content
[0003] The purpose of this utility model is to solve the problems in the background technology and provide a new type of floating sliding window support profile. This support profile improves the existing floating sliding window structure, enhances the heat insulation and sound insulation effect of the floating sliding window, improves the convenience of maintenance, and effectively reduces the cost of the floating sliding window.
[0004] The objective of this utility model is achieved through the following technical solution:
[0005] A novel floating sliding window support profile includes an outer window frame, an inner window frame, a window sash, a sealing strip, and a handrail frame. The outer wall of the inner window frame is connected to the side wall of the outer window frame via a thermal break. The surfaces of both the inner and outer window frames are machined with ramps sloping outwards. Multiple supports at equal intervals on the ramps are mounted on the same horizontal plane. Tracks supporting the window sashes are mounted on the supports. A number of window sashes, equal to the number of supports, are mounted on the corresponding tracks via rollers. Separator frames are engaged between adjacent supports. The sealing strip is installed on... On the partition frame, the window sash includes an outer sash frame and an inner sash frame, which are symmetrically arranged and connected by a thermal break. The top of the outer sash frame and the inner sash frame are machined with grooves that fit the glass, and the bottom of the outer sash frame and the inner sash frame are provided with clamping slots for holding rollers. The outer sash frame and the inner sash frame are close to each other but do not contact each other between the grooves and the clamping slots. The handrail frame is installed on the side wall of the inner window frame away from the outer window frame. The surface of the sealing strip is flush with the surface of the handrail frame, and the sealing strip is located between the grooves and the clamping slots.
[0006] The bottom of the support is machined with a drain outlet.
[0007] The sealing strip and the two sides of the handrail frame are machined with brush grooves that are compatible with the window sash.
[0008] The novel floating sliding window support profile provided by this utility model has the following advantages: by setting a split-type dividing frame and sealing strip on the window frame, it can be installed in sections, which not only saves the production and storage costs of materials, but also facilitates the later maintenance of the floating sliding window. At the same time, the window sash is divided into an outer sash frame and an inner sash frame, and the traditional connectors are connected to the outer sash frame and the inner sash frame. The outer sash frame and the inner sash frame are spliced together by using a thermal break, which not only improves the heat insulation and sound insulation effect of the window, but also meets the requirement of dual-color interior and exterior. Attached Figure Description
[0009] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this utility model and should not be regarded as a limitation on the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.
[0010] Figure 1 This is a schematic diagram of the existing technology.
[0011] Figure 2 This is a structural schematic diagram provided for an embodiment of the present utility model.
[0012] Figure 3 A schematic diagram of the window sash provided in an embodiment of this utility model.
[0013] The markings in the diagram are: 1. Outer window frame; 2. Inner window frame; 3. Window sash; 31. Outer sash frame; 32. Inner sash frame; 33. Groove; 34. Buckle; 35. Roller; 4. Sealing strip; 41. Divider frame; 42. Brush groove; 5. Handrail frame; 6. Thermal break; 7. Support; 71. Drain outlet; 72. Track. Detailed Implementation
[0014] like Figure 2 , Figure 3As shown, the novel floating sliding window support profile provided in this embodiment includes an outer window frame 1, an inner window frame 2, a window sash 3, a sealing strip 4, and a handrail frame 5. The outer wall of the inner window frame 2 is connected to the side wall of the outer window frame 1 via a thermal break 6. The surfaces of the inner window frame 2 and the outer window frame 1 are processed with ramps that slope from the inside out. Multiple supports 7 are installed at equal intervals on the ramps, all on the same horizontal plane. Tracks 72 supporting the window sash 3 are installed on the supports 7. Window sashes 3, in equal numbers to the number of supports 7, are installed on the corresponding tracks 72 via rollers 35. A partition frame 41 is snapped between adjacent supports 7, and the sealing strip 4 is installed on the partition frame 41. The window sash 3 includes an outer sash frame 31 and an inner sash frame 32, which are symmetrically arranged. The outer sash frame 31 and the inner sash frame 32 are connected by a thermal break 6. The top of the outer sash frame 31 and the inner sash frame 32 are machined with grooves 33 that are adapted to the glass. The bottom of the outer sash frame 31 and the inner sash frame 32 are provided with slots 34 for holding rollers 35. The outer sash frame 31 and the inner sash frame 32 between the grooves 33 and the slots 34 are close to each other but do not contact each other. The handrail frame 5 is installed on the side wall of the inner window frame 2 away from the outer window frame 1. The surface of the sealing strip 4 is flush with the surface of the handrail frame 5. The sealing strip 4 is located between the grooves 33 and the slots 34.
[0015] To collect rainwater, the bottom of the support 7 is machined with a drain outlet 71.
[0016] To reduce dust accumulation, the sealing strip 4 and the handrail frame 5 are machined with brush grooves 42 that are compatible with the window sash 3. After the brush is installed on the brush groove 42, it will not hinder the movement of the window sash 3, and it can also block dust and other impurities from entering the lower part of the sealing strip 4.
[0017] The method of using this utility model is as follows:
[0018] During assembly, the glass and rollers 35 are installed between the outer sash frame 31 and the inner sash frame 32. Then, the outer sash frame 31 and the inner sash frame 32 are joined together by the thermal break 6 to form a new window sash 3. Next, the outer window frame 1 and the inner window frame 2 are connected by the thermal break 6 and assembled into a whole window frame. Then, multiple window sashes 3 are installed sequentially on the track 72 of the bracket 7. After installing one window sash 3, a partition frame 41 is installed between two brackets 7. This step is repeated. Finally, the handrail frame 5 is installed. After the handrail frame 5 is installed, the sealing strip 4 is installed on the partition frame 41 and adjusted to be flush with the handrail frame 5. This completes the assembly of the floating sliding window.
[0019] If the sliding window requires two different colors for the inside and outside, this can be achieved by selecting different colors for the inside and outside when assembling the window sash 3. The thermal break 6 on the window sash 3 not only has the effects of sound insulation and heat insulation, but also serves to limit the glass and roller 35.
[0020] During maintenance, removing the sealing strip 4 will expose the cavity inside the window frame profile, making it easy to clean the inside of the window frame.
[0021] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any modifications and substitutions based on the technical solutions and inventive concepts provided by the present invention should be covered within the scope of protection of the present invention.
Claims
1. A novel floating sliding window support profile, comprising an outer window frame (1), an inner window frame (2), a window sash (3), a sealing strip (4), and a handrail frame (5), wherein the outer wall of the inner window frame (2) is connected to the side wall of the outer window frame (1) via a thermal break (6), and the surfaces of the inner window frame (2) and the outer window frame (1) are processed with ramps sloping from the inside out, and multiple brackets (7) at equal intervals on the ramps are mounted on the same horizontal plane, and tracks (72) supporting the window sash (3) are mounted on the brackets (7), and window sashes (3) of equal number to the number of brackets (7) are mounted on the corresponding tracks (72) via rollers (35), characterized in that: A partition frame (41) is snapped between adjacent brackets (7), and the sealing strip (4) is installed on the partition frame (41). The window sash (3) includes an outer sash frame (31) and an inner sash frame (32). The outer sash frame (31) and the inner sash frame (32) are symmetrically arranged. The outer sash frame (31) and the inner sash frame (32) are connected by a thermal break (6). The top of the outer sash frame (31) and the inner sash frame (32) are machined with grooves (33) that are compatible with the glass. The bottom of the inner sash frame (31) and the inner sash frame (32) are provided with a clamping slot (34) for holding the roller (35). The outer sash frame (31) and the inner sash frame (32) between the slot (33) and the clamping slot (34) are close to each other but do not contact each other. The handrail frame (5) is installed on the side wall of the inner window frame (2) away from the outer window frame (1). The surface of the sealing strip (4) is flush with the surface of the handrail frame (5). The sealing strip (4) is located between the slot (33) and the clamping slot (34).
2. The novel suspended sliding window support profile according to claim 1, characterized in that: The bottom of the support (7) is machined with a drain outlet (71).
3. The novel suspended sliding window support profile according to claim 1, characterized in that: The sealing strip (4) and the handrail frame (5) are machined with brush grooves (42) on both sides to match the window sash (3).