A heavy-duty top-hinged deflector

By incorporating components such as baffles, side plates, and sealing blocks into the heavy-duty top-opening window structure, a comprehensive sealing structure is formed, solving the problem of water leakage after long-term use of heavy-duty top-opening windows and improving sealing performance and durability.

CN224396359UActive Publication Date: 2026-06-23SHANDONG SANJIAN CONSTR ENG MANAGEMENT +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG SANJIAN CONSTR ENG MANAGEMENT
Filing Date
2025-05-29
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing heavy-duty top-opening window structures are prone to water leakage after long-term use. The quality of weather-resistant sealant is difficult to guarantee, and it is easily corroded by sunlight, cracking or peeling, resulting in a decrease in sealing performance.

Method used

A guide plate and side plate are installed above the keel, combined with a sealing block and sealing strip to form a comprehensive sealing structure. The guide plate and side plate cover the gap between the keel and the window frame, the sealing block connects to the guide plate, and an external sealing strip is installed between the inclined plate and the window sash to improve the sealing performance.

Benefits of technology

It effectively prevents rainwater from entering the connection between the keel and the window frame, avoiding water leakage, improving sealing performance, and has good sun resistance, preventing cracking or warping, thus enhancing the sealing effect for long-term use.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of heavy upper open window's flow guide device, mainly related to upper open window sealing field. Including the flow guide plate being arranged above keel, the window frame is symmetrically equipped on the keel, the upper side of the window frame is equipped with sash, glass is fixed on the sash, the flow guide plate is located between the window frame of both sides, the both sides of the flow guide plate symmetrically are equipped with baffle, the baffle is located between window frame and sash, the end of the baffle is equipped with stopper, the side of the stopper and window frame and sash contact, the junction of multiple flow guide plates is equipped with sealing block, the side of the sealing block is equipped with multiple connecting plates, the connecting plate extends to the upper side of flow guide plate. The utility model has the beneficial effect that it can solve the technical problem that existing heavy upper open window is prone to water leakage after long-term use, seal and flow guide the junction between keel and window frame, avoid the water leakage caused by rainwater accumulation, improve the sealing property of heavy upper open window when long-term use.
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Description

Technical Field

[0001] This utility model relates to the field of top-opening window sealing, specifically a heavy-duty top-opening window diversion device. Background Technology

[0002] Heavy-duty top-opening windows installed at the top of buildings have become a popular choice for many users due to their clearer views and brighter rooms. In this type of structure, weather-resistant sealant is usually applied between the window frame and the joists to prevent rainwater from leaking through the gaps. However, the application of weather-resistant sealant requires a high level of experience from the installers, and the quality of the sealant cannot be guaranteed. Furthermore, after prolonged exposure to sunlight and rain, the weather-resistant sealant is prone to cracking or peeling, which compromises the sealing performance of heavy-duty top-opening windows after long-term use. Utility Model Content

[0003] The purpose of this utility model is to provide a drainage device for heavy-duty top-opening windows, which can solve the technical problem of easy water leakage after long-term use of existing heavy-duty top-opening windows. It seals and diverts the connection between the keel and the window frame, avoids water leakage caused by rainwater accumulation, and improves the sealing performance of heavy-duty top-opening windows during long-term use.

[0004] To achieve the above objectives, this utility model employs the following technical solution:

[0005] A heavy-duty top-opening window deflector includes a deflector plate positioned above a keel. A window frame is symmetrically arranged on the keel, and a window sash is positioned above the window frame. Glass is fixed to the window sash. The deflector plate is located between the two window frames. Side plates are symmetrically arranged on both sides of the deflector plate, positioned between the window frame and the window sash. A stop block is provided at the end of each side plate, contacting the side of the window frame and the window sash. A sealing block is provided at the connection point of multiple deflector plates, and multiple connecting plates are provided on the side of each sealing block, extending above the deflector plate.

[0006] Furthermore, the longitudinal section of the guide plate is arc-shaped or pointed.

[0007] Furthermore, the keel is provided with pads, which are located between the window frames on both sides, and the deflector is fixed to the top of the pads.

[0008] Furthermore, the pad is bonded and fixed to the keel.

[0009] Furthermore, the top of the deflector plate is symmetrically provided with inclined plates, and an outer sealing strip is provided between the inclined plates and the window sash.

[0010] Furthermore, an inner sealing strip is provided between the stop block and the window frame, and between the stop block and the window sash.

[0011] Furthermore, the guide plate is made of plastic.

[0012] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0013] 1. The structure of this utility model features a guide plate above the keel, with symmetrical side plates on both sides of the guide plate. The side plates are located between the window frame and the window sash, and the ends of the side plates are equipped with blocks that contact the sides of the window frame and the window sash. This structure uses the cooperation of the guide plate and the side plates to cover the gap between the top of the keel and the window frame, allowing rainwater to fall onto the guide plate and drain along it, without entering the connection between the keel and the window frame. This effectively ensures the sealing between the keel and the window frame. The side plates can fill the gap between the window sash and the window frame, preventing rainwater on the guide plate from entering the gap and causing leakage. Moreover, the guide plate is more sun-resistant than weather-resistant adhesive and is less prone to cracking or warping, making the sealing of heavy-duty top-opening window structures more comprehensive and further improving the sealing effect.

[0014] 2. A sealing block is installed at the connection of multiple guide plates. Multiple connecting plates are provided on the side of the sealing block, and the connecting plates extend to the top of the guide plates. This structure allows the connection of multiple guide plates to be sealed by the sealing block. Rainwater falling at the connection point flows along the multiple connecting plates on the side to the guide plate, eliminating any dead corners in the seal and further improving the sealing effect. Attached Figure Description

[0015] Appendix Figure 1 This is a schematic diagram of the application scenario of this utility model.

[0016] Appendix Figure 2 This is a three-dimensional structural diagram of the present invention.

[0017] Appendix Figure 3 This is a front view of the present invention.

[0018] Appendix Figure 4 This is an appendix to this utility model. Figure 3 A cross-sectional view along the AA direction.

[0019] Appendix Figure 5 This is an appendix to this utility model. Figure 4 A magnified view of part B in the middle.

[0020] Appendix Figure 6 This is an appendix to this utility model. Figure 3 A cross-sectional view along the CC direction.

[0021] The labels shown in the attached diagram:

[0022] 1. Keel; 2. Deflector plate; 3. Window frame; 4. Window sash; 5. Glass; 6. Side plate; 7. Stop block; 8. Sealing block; 9. Connecting plate; 10. Gasket; 11. Inclined plate; 12. Outer sealing strip; 13. Inner sealing strip. Detailed Implementation

[0023] The present invention will be further illustrated below with reference to specific embodiments. It should be understood that these embodiments are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that after reading the teachings of this invention, those skilled in the art can make various alterations or modifications to the present invention, and these equivalent forms also fall within the scope defined in this application.

[0024] Reference Figure 1 and Figure 3 This utility model describes a diversion device for a heavy-duty upward-opening window. The main structure includes a diversion plate 2 positioned above a keel 1. The keel 1 serves as a supporting beam at the top of the building structure, supporting the heavy-duty upward-opening window structure. Window frames 3 are symmetrically arranged on the keel 1, typically fixed to the keel 1 with bolts and adhesive. A window sash 4 is positioned above the window frame 3, also fixed to the window frame 3 with bolts and adhesive. Glass 5 is fixed to the window sash 4. The glass 5 and window sash 4 constitute the main part of the heavy-duty upward-opening window, providing a wider view from the top of the building, more sunlight, and a brighter interior. The diversion plate 2 is located between the two window frames 3, covering the gap between the keel 1 and the two window frames 3, preventing rainwater from entering the gap. Side plates are symmetrically fixed to both sides of the diversion plate 2 via integral molding. 6. The side plate 6 is located between the window frame 3 and the window sash 4. This structure allows the structure composed of the guide plate 2 and the side plate 6 to completely cover the area above the keel 1. Rainwater will not leak from the edge of the guide plate 2, but will flow along the guide plate 2 towards the edge of the building, thus making the sealing of the gap between the keel 1 and the window frame 3 more comprehensive. The end of the side plate 6 is fixed with a stop 7 by adhesive or bolts. The stop 7 contacts the side of the window frame 3 and the window sash 4. The stop 7 on both sides restricts the structure composed of the guide plate 2 and the side plate 6 between the two window frames 3, preventing it from moving relative to the window frame 3. This ensures the firmness of the sealing and guiding structure. Moreover, the guide plate 2 is less prone to cracking or warping due to sun exposure or rain erosion compared to weather-resistant adhesive. The sealing and guiding effect is better, and it is less likely to leak at the connection between the keel 1 and the window frame 3 during long-term use. (Refer to...) Figure 2 and Figure 6A sealing block 8 is provided at the connection of the multiple guide plates 2. The sealing block 8 is used to bond and fix the multiple guide plates 2 at the connection to prevent water leakage. Multiple connecting plates 9 are fixed to the side of the sealing block 8 by bonding or integral molding. The connecting plates 9 extend to the top of the guide plates 2. This structure allows rainwater falling at the connection to flow along the connecting plate 9 into the surrounding guide plates 2, thereby making it less likely for rainwater to accumulate at the connection, further improving the overall flow guiding effect and ensuring the overall sealing of the heavy-duty top-opening window structure.

[0025] Preferably, the longitudinal section of the guide plate 2 is arc-shaped or pointed, making the guide plate 2 part of a tubular structure or an integrally formed V-shape. This structure gives the guide plate 2 a certain water storage capacity, so that when the amount of rainwater is small, the rainwater only exists inside the arc-shaped or pointed shape of the guide plate 2 and will not enter the connection between the side plate 6 and the window sash 4, and will be quickly discharged along the guide plate 2 in a short time, thereby further improving the diversion effect and reducing the possibility of leakage.

[0026] Preferably, a pad 10 is fixed to the keel 1 by adhesive bonding or welding. The pad 10 is located between the window frames 3 on both sides. The guide plate 2 is bonded or integrally formed and fixed to the top of the pad 10. This structure uses the pad 10 to fill the gap between the guide plate 2 and the keel 1, thereby providing effective support for the guide plate 2. This makes the guide plate 2 less prone to bending and deformation after long-term use, and further improves the service life of the guide plate 2.

[0027] Preferably, the pad 10 is bonded and fixed to the keel 1. This structure makes the pad 10 and the guide plate 2 an integral unit, allowing adhesive to be applied directly to the pad 10 during construction. Then, the guide plate 2 and the pad 10 are installed on the keel 1. The bonding between the pad 10 and the keel 1 enables the installation and fixing of the pad 10 and the guide plate 2 in one step, further simplifying the construction steps and improving construction efficiency.

[0028] Preferably, the top of the guide plate 2 is symmetrically fixed with inclined plates 11 by welding or integral molding. An outer sealing strip 12 is provided between the inclined plate 11 and the window sash 4. This structure uses the inclined plate 11 to restrict and guide the rainwater on the guide plate 2, making it difficult for rainwater to enter the connection between the side plate 6 and the window sash 4. Furthermore, the outer sealing strip 12 is used to further reinforce and seal the contact position between the inclined plate 11 and the window sash 4, preventing water leakage at the window sash 4.

[0029] Preferred, refer to Figure 4 and Figure 5The block 7 is provided with an inner sealing strip 13 between the window frame 3 and the window sash 4. The inner sealing strip 13 is used to seal the connection between the block 7 and the window frame 3 and the window sash 4 to prevent rainwater from leaking from the connection between the side plate 6 and the window sash 4 from flowing into the interior of the building. The sealing performance of the heavy-duty top-opening window structure is comprehensively improved by using multiple seals.

[0030] Preferably, the guide plate 2 is made of plastic, or it can be made of fiberglass. Such materials are more sun-resistant and have a longer service life than weather-resistant adhesives, ensuring a good sealing effect under long-term use.

[0031] Working Principle: This invention features a guide plate 2 above the keel 1, with symmetrical side plates 6 on both sides of the guide plate 2. The side plates 6 are located between the window frame 3 and the window sash 4, and each end of the side plate 6 has a stop block 7 that contacts the sides of the window frame 3 and the window sash 4. This structure utilizes the cooperation of the guide plate 2 and the side plates 6 to cover the gap between the top of the keel 1 and the window frame 3, allowing rainwater to fall onto the guide plate 2 and drain along it, preventing it from entering the connection between the keel 1 and the window frame 3. This effectively ensures the seal between the keel 1 and the window frame 3. The side plates 6 also fill the gap between the window sash 4 and the window frame 3, preventing... Rainwater from the guide plate 2 can enter the gap between the two, preventing leakage. Furthermore, the guide plate 2 is more sun-resistant than weather-resistant adhesive, less prone to cracking or warping, resulting in a more comprehensive seal for heavy-duty top-opening window structures and further improving the sealing effect. Sealing blocks 8 are installed at the joints of multiple guide plates 2, with multiple connecting plates 9 on the sides of the sealing blocks 8 extending above the guide plates 2. This structure allows the joints of multiple guide plates 2 to be sealed using the sealing blocks 8. Rainwater falling at the joints flows along the multiple connecting plates 9 on the sides onto the guide plate 2, eliminating any dead zones in the seal and further improving the sealing effect.

Claims

1. A heavy-duty top-hinged deflector comprising a deflector panel (2) arranged above a keel (1), characterised in that: A window frame (3) is symmetrically provided on the keel (1). A window sash (4) is provided above the window frame (3). A glass (5) is fixed on the window sash (4). The guide plate (2) is located between the two window frames (3). Side plates (6) are symmetrically provided on both sides of the guide plate (2). The side plates (6) are located between the window frame (3) and the window sash (4). A stop block (7) is provided at the end of the side plate (6). The stop block (7) contacts the side of the window frame (3) and the window sash (4). A sealing block (8) is provided at the connection of multiple guide plates (2). Multiple connecting plates (9) are provided on the side of the sealing block (8). The connecting plate (9) extends to the top of the guide plate (2).

2. A flow directing device for heavy top-hung windows according to claim 1, characterized in that: The longitudinal section of the guide plate (2) is arc-shaped or pointed.

3. A flow directing device for heavy top hung windows according to claim 1, wherein: The keel (1) is provided with a pad (10), the pad (10) is located between the window frames (3) on both sides, and the guide plate (2) is fixed on the top of the pad (10).

4. A flow directing device for a heavy top-hinged window according to claim 3, wherein: The pad (10) is bonded and fixed to the keel (1).

5. A flow directing device for heavy top hung windows according to claim 1, wherein: The top of the guide plate (2) is symmetrically provided with inclined plates (11), and an outer sealing strip (12) is provided between the inclined plates (11) and the window sash (4).

6. A flow directing device for heavy top hung windows according to claim 1, wherein: An inner sealing strip (13) is provided between the stop block (7) and the window frame (3), and between the stop block (7) and the window sash (4).

7. A flow directing device for heavy top hung windows according to claim 1, wherein: The guide plate (2) is made of plastic.