Aluminum alloy sliding window right upright column for adaptive elastic sealing plate
By designing first and second sealing edges and separation components on the right column of the aluminum alloy sliding window, the problem of exposed gaps in the aluminum alloy sliding window frame is solved, dust protection and convenient maintenance are achieved, and the performance and lifespan of the window sash are improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU LONGWAY ELECTRONICS MACHINERY
- Filing Date
- 2025-06-09
- Publication Date
- 2026-06-09
AI Technical Summary
The existing aluminum alloy sliding window frame is made of spliced profiles. The profiles are flush on all sides, and the gap between the right end of the window sash beam and the left side of the right column is exposed. Dust and impurities can easily enter, affecting the sliding of the window sash. Additional accessories are needed for sealing, which is troublesome, inefficient and unsightly.
The design incorporates an aluminum alloy sliding window right column with an adaptive elastic sealing panel, comprising a right column body, a plate groove, a slider groove, a first sealing edge, a second sealing edge, a fixing box, and a separation component. The first and second sealing edges cover gaps, and the separation component enables convenient installation and disassembly, preventing dust from entering.
It effectively blocks gaps, prevents dust and impurities from entering, simplifies the maintenance process, improves maintenance convenience, extends the service life of sliding windows, and reduces long-term operating costs.
Smart Images

Figure CN224338834U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of aluminum alloy window sash technology, and more specifically, it relates to the right column of an aluminum alloy sliding window with an adaptive elastic sealing plate. Background Technology
[0002] An adaptive elastic sash is a type of window sash whose main components are made of aluminum alloy profiles. It can automatically adjust its shape and size through its own elastic deformation to fit tightly into the gap between the window and the window. The adaptive elastic sash has a sliding window inside that can slide up and down and open for ventilation or passage. The sliding window is assembled into a frame by splicing aluminum alloy profiles. The right column is an important supporting part of the frame. Its interior has a plate groove for installing polycarbonate sheets and a slider groove for installing plastic sliders.
[0003] Existing application number: CN202420508823.4, this utility model discloses an aluminum alloy door and window sliding rail, including a sliding rail base. A bolt is inserted into the middle of the bottom of the sliding rail base. Fixing buckles are inserted into the inner walls of two connecting holes. Connecting grooves are formed on one side of each of the two fixing buckles. A connecting rod is rotatably connected between the inner walls of the two connecting grooves. A first spring is fixed to one side of the inner wall of the sliding rail base, and one end of the first spring contacts one side of the connecting rod. In this utility model, turning the bolt at the bottom of the sliding rail base causes the connecting rod to extend within the inner wall of the sliding rail base, thereby pressing the fixing buckles to insert into the connecting holes at both ends. The rubber pads at the upper ends then contact and press against both sides of the door frame, fixing the sliding rail base in the door or window. Simultaneously, the bolt is threaded onto the inner wall of the sliding rail base, making it less prone to detachment under prolonged pressure, facilitating operation, and preventing damage due to oxidation and corrosion, thus improving the practicality of the device.
[0004] Based on the above, after the aluminum alloy sliding window frame is spliced from profiles, the profiles are flush on all sides, and the gap between the right end of the window sash beam and the left side of the right column body is exposed. Dust and impurities can easily enter, affecting the sliding of the window sash. In order to effectively seal, additional accessories are required, which is troublesome, inefficient, and also unsightly. Utility Model Content
[0005] To solve the above-mentioned technical problems, this utility model provides an aluminum alloy sliding window right column for adaptive elastic sealing plate. This solves the problem that after the existing aluminum alloy sliding window frame is spliced from profiles, the profiles are flush on all sides, and the gap between the right end of the window sash beam and the left side of the right column body is exposed, making it easy for dust and impurities to enter and affect the sliding of the window sash. In order to effectively seal, additional accessories are required, which is troublesome, inefficient, and also unsightly.
[0006] The purpose and function of this utility model of an aluminum alloy sliding window right column for an adaptive elastic sealing plate are achieved by the following specific technical means:
[0007] The right column of an adaptive elastic sealing panel aluminum alloy sliding window includes a right column body, a plate groove, a slider groove, a first sealing edge, a second sealing edge, a fixing box, and a separation component. The plate groove is located inside the left end of the right column body. The slider groove is located inside the rear of the right column body. The first sealing edge is fixedly connected to the front of the right column body. The second sealing edge is located behind the right column body, and the second sealing edge and the first sealing edge are staggered. The fixing box is fixedly connected inside the right column body. The separation component is located behind the right column body.
[0008] Furthermore, the cross-section of the plate groove is a square groove structure with an opening at the left end. The width of the opening at the left end of the plate groove is adapted to the thickness of the standard polycarbonate sheet, and the opening at the left end of the plate groove forms an interference fit structure with the standard polycarbonate sheet.
[0009] Furthermore, the cross-section of the slider groove is a square groove structure with an opening at the top, and the width of the opening at the top of the slider groove matches the tolerance of a general plastic slider. The slider groove and the general plastic slider form a sliding connection structure.
[0010] Furthermore, the separation component includes: a plug-in groove and a limiting groove; the plug-in groove is formed inside the fixing box; two limiting grooves are formed, and the two limiting grooves are formed separately inside the fixing box.
[0011] Furthermore, the separation assembly also includes: a plug-in box, a sliding plate, and a movable column; the plug-in box is fixedly connected inside the second sealing flange, and the front end of the plug-in box is inserted into the plug-in groove; two sliding plates are provided, and the two sliding plates are slidably connected inside the plug-in box; two movable columns are provided, and the two movable columns are respectively fixedly connected to the outside of the two sliding plates, and the two movable columns are slidably connected to the plug-in box.
[0012] Furthermore, the separation assembly also includes: a limiting post and a return spring; two limiting posts are provided, and the two limiting posts are respectively fixedly connected to the outside of the two sliding plates, and the two limiting posts are respectively slidably connected to the plug box; the upper and lower ends of the return spring are respectively fixedly connected to the inside of the two sliding plates.
[0013] Compared with the prior art, the present invention has the following beneficial effects:
[0014] First, a first sealing edge and a second sealing edge are provided, which expose a portion of the left end face of the right column body. After the sliding window sash is closed, the front and rear gaps between the right end of the window sash beam and the left side of the right column body will be blocked by the first sealing edge and the second sealing edge to prevent dust from entering, and no additional sealing measures are required.
[0015] Secondly, it enables convenient separation and fixation of the second sealing edge and the right column body. When the window sash beam needs to be cleaned, replaced or repaired, the obstruction to the beam can be easily removed and it can be taken off. The installation is simple, and the fixing can be completed by simply pressing the moving column and cooperating with the return spring, which greatly improves the convenience of maintenance.
[0016] The first and second sealing edges of this utility model can effectively cover the gap between the window sash beam and the right column, preventing dust and impurities from entering and affecting the use of the sliding window. No additional sealing is required. Through the ingenious separation component, the second sealing edge can be easily separated and fixed, which greatly improves the maintenance convenience of the window sash beam, extends the service life of the sliding window, and reduces long-term use costs. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0018] Figure 2 This is a schematic diagram of the cross-sectional structure of the right column body of this utility model.
[0019] Figure 3 This is a schematic diagram of the structure of the second sealing edge of this utility model in the separated state from the main body of the right column.
[0020] Figure 4 This is the utility model Figure 3 A detailed, enlarged structural diagram of point A in the middle.
[0021] Figure 5 This is a schematic diagram of the plug-in box structure of this utility model.
[0022] Figure 6 This is a schematic diagram of the sliding plate structure of this utility model.
[0023] In the diagram, the correspondence between component names and drawing numbers is as follows:
[0024] 1. Right column body; 101. Plate groove; 102. Slider groove; 103. First sealing edge; 104. Second sealing edge; 2. Fixing box; 201. Insertion groove; 202. Limiting groove; 3. Insertion box; 4. Sliding plate; 401. Moving column; 402. Limiting column; 403. Return spring. Detailed Implementation
[0025] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.
[0026] Example 1:
[0027] As attached Figure 1 To be continued Figure 6 As shown:
[0028] This utility model provides an aluminum alloy sliding window right column for adaptive elastic sealing panels, including a right column body 1, a plate groove 101, a slider groove 102, a first sealing edge 103, a second sealing edge 104, a fixing box 2, and a separation component; the plate groove 101 is opened inside the left end of the right column body 1; the slider groove 102 is opened inside the rear of the right column body 1; the first sealing edge 103 is fixedly connected to the front of the right column body 1; the second sealing edge 104 is disposed at the rear of the right column body 1, and the second sealing edge 104 and the first sealing edge 103 are staggered front and rear; the fixing box 2 is fixedly connected inside the right column body 1; the separation component is disposed at the rear of the right column body 1.
[0029] Among them, the cross-section of the plate groove 101 is a square groove structure with an opening at the left end. The width of the opening at the left end of the plate groove 101 is adapted to the thickness of the standard polycarbonate sheet, and the opening at the left end of the plate groove 101 forms an interference fit structure with the standard polycarbonate sheet.
[0030] The slider groove 102 has a square groove structure with an open top. The width of the upper opening of the slider groove 102 matches the tolerance of the general plastic slider. The slider groove 102 and the general plastic slider form a sliding connection structure.
[0031] The separation component includes: a plug-in groove 201 and a limiting groove 202; the plug-in groove 201 is opened inside the fixed box 2; two limiting grooves 202 are opened, and the two limiting grooves 202 are opened separately inside the fixed box 2.
[0032] The separation assembly also includes: a plug-in box 3, a sliding plate 4, and a moving post 401; the plug-in box 3 is fixedly connected inside the second sealing edge 104, and the front end of the plug-in box 3 is inserted into the plug-in groove 201; two sliding plates 4 are provided, and the two sliding plates 4 are slidably connected inside the plug-in box 3; two moving posts 401 are provided, and the two moving posts 401 are fixedly connected to the outside of the two sliding plates 4 respectively, and the two moving posts 401 are slidably connected to the plug-in box 3 respectively.
[0033] The separation assembly also includes: a limiting post 402 and a return spring 403; two limiting posts 402 are provided, and the two limiting posts 402 are respectively fixedly connected to the outside of the two sliding plates 4, and the two limiting posts 402 are respectively slidably connected to the plug box 3; the upper and lower ends of the return spring 403 are respectively fixedly connected to the inside of the two sliding plates 4.
[0034] The specific usage and function of this embodiment: The left end opening of the plate groove 101 can pass through a standard thickness polycarbonate sheet, facilitating light transmission; the slider groove 102 can be used to fix a general-purpose plastic slider to maintain the up-and-down sliding of the window frame; the first sealing edge 103 and the second sealing edge 104 are exposed on the left end face of the right column body 1, so that when the sliding window sash is closed, the gap between the right end of the window sash beam and the left side of the right column body 1 will not be exposed, thus sealing more effectively; at the same time, pressing the two moving columns 401 inward can drive the two sliding plates 4 and the two limiting columns 402 to move inward simultaneously, and the limiting columns 402 disengage from the limiting groove 202. Then, by moving the second sealing edge 104 backward, it can be separated from the right column body 1. At this time, the obstruction to the window sash beam can be released, making it easy to remove the window sash beam when it needs to be cleaned, replaced or repaired. When reinstalling, simply press the two moving posts 401 inward again, insert the front end of the plug box 3 into the plug groove 201, and then release the two moving posts 401. Under the rebound action of the return spring 403, the two limiting posts 402 and the two sliding plates 4 move outward at the same time. The two limiting posts 402 are respectively inserted into the two limiting grooves 202, thus completing the fixation of the second sealing edge 104 and the right column body 1.
[0035] The following points should be noted in this article:
[0036] 1. The accompanying drawings of this embodiment only involve the structures involved in this embodiment; other structures can refer to the general design.
[0037] 2. Where there is no conflict, this embodiment and the features in the embodiment can be combined with each other to obtain new embodiments.
[0038] The above are merely specific implementations of this embodiment, but the protection scope of this embodiment is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this embodiment should be included within the protection scope of this embodiment. Therefore, the protection scope of this embodiment should be determined by the protection scope of the claims.
Claims
1. A right column for an aluminum alloy sliding window with an adaptive elastic sealing plate, characterized in that: The system includes a right column body (1), a plate groove (101), a slider groove (102), a first sealing edge (103), a second sealing edge (104), a fixing box (2), and a separation component. The plate groove (101) is located inside the left end of the right column body (1). The slider groove (102) is located inside the rear of the right column body (1). The first sealing edge (103) is fixedly connected to the front of the right column body (1). The second sealing edge (104) is located behind the right column body (1), and the second sealing edge (104) and the first sealing edge (103) are staggered. The fixing box (2) is fixedly connected inside the right column body (1). The separation component is located behind the right column body (1).
2. The right column of the aluminum alloy sliding window for the adaptive elastic sealing plate as described in claim 1, characterized in that: The cross-section of the plate groove (101) is a square groove structure with an opening at the left end. The width of the opening at the left end of the plate groove (101) is adapted to the thickness of the standard polycarbonate sheet. The opening at the left end of the plate groove (101) forms an interference fit structure with the standard polycarbonate sheet.
3. The right column of the aluminum alloy sliding window for the adaptive elastic sealing plate as described in claim 1, characterized in that: The cross-section of the slider groove (102) is a square groove structure with an open top. The width of the upper opening of the slider groove (102) matches the tolerance of the general plastic slider. The slider groove (102) and the general plastic slider form a sliding connection structure.
4. The right column of the aluminum alloy sliding window for the adaptive elastic sealing plate as described in claim 1, characterized in that: The separation component includes: a plug-in groove (201) and a limiting groove (202); the plug-in groove (201) is opened inside the fixing box (2); two limiting grooves (202) are opened, and the two limiting grooves (202) are opened separately inside the fixing box (2).
5. The right column of the aluminum alloy sliding window for the adaptive elastic sealing plate as described in claim 4, characterized in that: The separation assembly further includes: a plug box (3), a sliding plate (4), and a moving column (401); the plug box (3) is fixedly connected inside the second sealing flange (104), and the front end of the plug box (3) is inserted into the plug groove (201); two sliding plates (4) are provided, and the two sliding plates (4) are slidably connected inside the plug box (3); two moving columns (401) are provided, and the two moving columns (401) are fixedly connected to the outside of the two sliding plates (4), and the two moving columns (401) are slidably connected to the plug box (3).
6. The right column of the aluminum alloy sliding window for the adaptive elastic sealing plate as described in claim 5, characterized in that: The separation assembly further includes: a limiting post (402) and a return spring (403); two limiting posts (402) are provided, and the two limiting posts (402) are respectively fixedly connected to the outside of the two sliding plates (4), and the two limiting posts (402) are respectively slidably connected to the plug box (3); the upper and lower ends of the return spring (403) are respectively fixedly connected to the inside of the two sliding plates (4).