WO2015112104A1 - Closing insulation system in sliding windows and doors - Google Patents
Closing insulation system in sliding windows and doors Download PDFInfo
- Publication number
- WO2015112104A1 WO2015112104A1 PCT/TR2015/000036 TR2015000036W WO2015112104A1 WO 2015112104 A1 WO2015112104 A1 WO 2015112104A1 TR 2015000036 W TR2015000036 W TR 2015000036W WO 2015112104 A1 WO2015112104 A1 WO 2015112104A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- mechanism box
- wing
- force transmission
- transmission element
- sealing strip
- Prior art date
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B7/00—Special arrangements or measures in connection with doors or windows
- E06B7/16—Sealing arrangements on wings or parts co-operating with the wings
- E06B7/18—Sealing arrangements on wings or parts co-operating with the wings by means of movable edgings, e.g. draught sealings additionally used for bolting, e.g. by spring force or with operating lever
Definitions
- the invention is about a closing system that ensures insulation between the wing and the frame in sliding window and door systems made of aluminum and other materials, and its feature is that it is composed of; closing sealing strip component that can be produced in different sizes and forms (1), mechanism box (2), mechanism box-force transmission element connection (2.1), mechanism box body (2.2), mechanism box pin (2.3), mechanism box transmitter (2.4), mechanism box arm (2.5), mechanism box joint (2.6), force transmission element (3), handle (4), frame (5) and wing (6).
- the closing insulation system increasing the insulation performance which is the subject matter of this invention, distinctly from the state of the art, has increased substantially the air, water, heat and sound insulation performances compared to the other sliding window and door systems existing in the market.
- the mechanism is located in the wing top and bottom horizontal profiles.
- the force transmission element (3) moves linearly and transmits the load to the mechanism box (2) that can be produced in different sizes and forms.
- the mechanism box arm (2.5) moves around the mechanism box joint (2.6).
- the mechanism box pin (2.3) connected to the mechanism box arm (2.5) moves towards outside of the wing (6), and the closing sealing strip component (1) connected to the mechanism box pins (2.3) ensures insulation by closing the gap between the frame (5) and the wing (6).
- the closing sealing strip component (1) releases the frame (5) and the wing (6), and the wing sliding can be performed.
- the performance of the system can be sustained for a long time. Contrary to the lift-and-slide, by virtue of the system which is the subject matter of this invention any performance loss in the air, water, heat and sound insulation is not encountered.
- the window and door system has a longer lifetime by virtue of the invention.
- the invention provides high sound insulation and prevents air ingress for the purpose of getting rid of the noise pollution generated due to the environment conditions in the inhabited space, saves heating costs in the wintertime and cooling cots in the summertime by virtue of its high heat insulation, and provides high performance water insulation by preventing water intake by pressing on and closing the insulation sealing strips.
- it is possible to manufacture sliding windows and doors which are more economic and have higher performances compared to all the present lift-and-slide systems. It offers the ultimate consumer the high performance product having lower accessory costs in an economic way. Since the existing accessories are not depended on, due to the higher bearing capacity of the invention, it is possible to manufacture sliding door wings with bigger dimensions, thus it is possible to create more spacious areas/spaces with broad field of vision (field of view).
- the invention provides the opportunity to use fire-resistant insulation materials in order to retard passage of flame, heat and smoke during fire.
- the invention offers also the option of using small size handles. It can also be applied for the suspended sliding systems that have been developed for the situations where any barriers are not wanted on the floor.
- the components of the system and the sealing strips connected to the mechanism can be manufactured from diverse materials.
- Figure-1 Axonometric view of the frame (5), the wing (6) and the handle (4) in a sliding system where the closing sealing strip component (1) is open.
- Figure.2 Axonometric view of the force transmission element (3), the mechanism box (2), and the closing sealing strip component (1) within the wing, in a sliding system where the closing sealing strip component (1) is open, the frame (5) and handle (4) are visible, and the wing (6) is passive.
- Figure.3 Axonometric view of the transmission of the force applied to the handle (4) to the vertical movement of the mechanism box (2) through the force transmission elements (3), and transmission of this movement to the closing sealing strip component (1).
- Figure.4 Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) before application of force.
- Figure.5 Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and before application of force to the system.
- Figure.6 Axonometric view of the force transmission element (3), the inner view of the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and before application of force to the system.
- Figure.7 Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) after application of force.
- Figure.8 Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and after application of force to the system.
- Figure.9 Axonometric view of the force transmission element (3), the inner view of the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and after efore application of force to the system.
- Figure.10 Axonometric view of the force transmission element (3), and the mechanism box (2) before application of force.
- Figure.11 Axonometric view of the force transmission element (3), and the inner view of the mechanism box (2) before application of force.
- Figure.12 Axonometric view of the force transmission element (3), and the mechanism box (2) after application of force.
- Figure.13 Axonometric view of the force transmission element (3), and the inner view of the mechanism box (2) after application of force. Description of the numbers on the Figures:
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- Engineering & Computer Science (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
Abstract
The invention is about a closing system that ensures insulation between the wing and the frame in sliding window and door systems made of aluminum and other materials, and its feature is that it is composed of; closing sealing strip component (1), mechanism box (2), mechanism box-force transmission element connection (2.1), mechanism box body (2.2), mechanism box pin (2.3), mechanism box transmitter (2.4), mechanism box arm (2.5), mechanism box joint (2.6), force transmission element (3), handle (4), frame (5) and wing (6).
Description
SPECIFICATION
CLOSING INSULATION SYSTEM IN SLIDING WINDOWS AND DOORS
The invention is about a closing system that ensures insulation between the wing and the frame in sliding window and door systems made of aluminum and other materials, and its feature is that it is composed of; closing sealing strip component that can be produced in different sizes and forms (1), mechanism box (2), mechanism box-force transmission element connection (2.1), mechanism box body (2.2), mechanism box pin (2.3), mechanism box transmitter (2.4), mechanism box arm (2.5), mechanism box joint (2.6), force transmission element (3), handle (4), frame (5) and wing (6).
In the state of the art, there are two types of systems used in all sliding window and door systems existing in the domestic and foreign markets: simple sliding system and tift-and-slide system. The simple sliding system offers the ability to use only the bristle brush for insulation purposes due to its working principle based on sliding the wing. On account of the fact that the insulating property of bristle brushes is low, air and water can easily leak into the sliding system, and this also reduces the heat and sound performances. Furthermore, due to opening and closing of the wing in the sliding system, the materials are worn out, become deformed, and ultimately the low performance decreases even more over time. Therefore, the simple sliding system provides very low insulation performance. In the lift-and-slide system on the other hand, in order to meet the performance requirements (air, water, heat and sound) that the simple sliding system cannot meet, a rubber or plastic brush with high insulation value is used on tke wing, and in order to ensure the
operation of the system under friction, a wing lifting mechanism is used and this way a lift-and-slide system is created on the wing. However, in order for the mechanism to lift the wing it is needed to apply much force on the closing handle. Therefore, it is compulsory to use a big handle. The lift-and-slide system that was invented to increase the insulation performance has eliminated the friction along the horizontal wing rail but has not been able to eliminate the point frictions. Although the performance has reached to a satisfactory level in the lift-and-slide systems, there are performance losses in this system as well due to wear and tear caused by use of the system. The high cost of the mechanism has made the general cost of the joinery expensive. Additionally this system can bear weights up to maximum 400 kg, therefore this limits the door dimensions.
The closing insulation system increasing the insulation performance, which is the subject matter of this invention, distinctly from the state of the art, has increased substantially the air, water, heat and sound insulation performances compared to the other sliding window and door systems existing in the market. The mechanism is located in the wing top and bottom horizontal profiles. By virtue of the force applied on the handle (4) the force transmission element (3) moves linearly and transmits the load to the mechanism box (2) that can be produced in different sizes and forms. By virtue of the movement of the mechanism box-force transmission element connection (2.1), the mechanism box arm (2.5) moves around the mechanism box joint (2.6). The mechanism box pin (2.3) connected to the mechanism box arm (2.5) moves towards outside of the wing (6), and the closing sealing strip component (1) connected to the mechanism box pins (2.3) ensures insulation by closing the gap between the frame (5) and the wing (6). In case a force in the
opposite direction is applied on the handle (4), the closing sealing strip component (1) releases the frame (5) and the wing (6), and the wing sliding can be performed. On account of the fact that friction is eliminated, the performance of the system can be sustained for a long time. Contrary to the lift-and-slide, by virtue of the system which is the subject matter of this invention any performance loss in the air, water, heat and sound insulation is not encountered. Thus, the window and door system has a longer lifetime by virtue of the invention.
The invention provides high sound insulation and prevents air ingress for the purpose of getting rid of the noise pollution generated due to the environment conditions in the inhabited space, saves heating costs in the wintertime and cooling cots in the summertime by virtue of its high heat insulation, and provides high performance water insulation by preventing water intake by pressing on and closing the insulation sealing strips. By virtue of the invention, it is possible to manufacture sliding windows and doors which are more economic and have higher performances compared to all the present lift-and-slide systems. It offers the ultimate consumer the high performance product having lower accessory costs in an economic way. Since the existing accessories are not depended on, due to the higher bearing capacity of the invention, it is possible to manufacture sliding door wings with bigger dimensions, thus it is possible to create more spacious areas/spaces with broad field of vision (field of view).
It provides the opportunity to use fire-resistant insulation materials in order to retard passage of flame, heat and smoke during fire. On account that the system does not require much force, the invention offers also the option of using small size handles. It can also be applied for the suspended sliding systems that have been developed for the situations
where any barriers are not wanted on the floor. Depending on the desired performance choice (water, air, sound, heat, fire etc.) the components of the system and the sealing strips connected to the mechanism can be manufactured from diverse materials.
Description of the figures:
Figure-1: Axonometric view of the frame (5), the wing (6) and the handle (4) in a sliding system where the closing sealing strip component (1) is open.
Figure.2: Axonometric view of the force transmission element (3), the mechanism box (2), and the closing sealing strip component (1) within the wing, in a sliding system where the closing sealing strip component (1) is open, the frame (5) and handle (4) are visible, and the wing (6) is passive.
Figure.3: Axonometric view of the transmission of the force applied to the handle (4) to the vertical movement of the mechanism box (2) through the force transmission elements (3), and transmission of this movement to the closing sealing strip component (1).
Figure.4: Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) before application of force.
Figure.5: Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and before application of force to the system.
Figure.6: Axonometric view of the force transmission element (3), the inner view of the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and before application of force to the system.
Figure.7: Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) after application of force.
Figure.8: Axonometric view of the force transmission element (3), the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and after application of force to the system.
Figure.9: Axonometric view of the force transmission element (3), the inner view of the mechanism box (2) and the closing sealing strip component (1) when one of them is passive and after efore application of force to the system.
Figure.10: Axonometric view of the force transmission element (3), and the mechanism box (2) before application of force.
Figure.11: Axonometric view of the force transmission element (3), and the inner view of the mechanism box (2) before application of force.
Figure.12: Axonometric view of the force transmission element (3), and the mechanism box (2) after application of force.
Figure.13: Axonometric view of the force transmission element (3), and the inner view of the mechanism box (2) after application of force.
Description of the numbers on the Figures:
(1) The dosing sealing strip component that can be produced in different sizes and forms
(2) The mechanism box that can be produced in different sizes and forms
(2.1) Mechanism box -Force transmission element connection
(2.2) Mechanism box body
(2.3) Mechanism box pin
(2.4) Mechanism box transmitter
(2.5) Mechanism box arm
(2.6) Mechanism box joint
(3) Force transmission element
(4) Handle
(5) Frame
(6) Wing
Claims
1- The invention is about a dosing insulation system in the sliding window and door systems, and its feature is that; by virtue of the force transmission elements (3) and the mechanism box (2) that can be produced in different sizes and forms, the movement is transmitted through the handle (4) connected to the wing (6) and closes the gap between the frame (5) and the wing by the vertical outward movement of the closing sealing strip component (1) that can be produced in different sizes and forms and ensures air, water, sound and heat performance; and that mechanism box (2) is composed of the mechanism box- force transmission element connection (2.1), mechanism box body (2.2), mechanism box pin (2.3), mechanism box transmitter (2.4), mechanism box arm (2.5), and the mechanism box joint (2.6).
2- The invention is about a dosing insulation system in sliding window and door systems according to the claim 1, and it is characterized by the feature that the load coming from the handle (4) connected to the wing (6) and through the mediating force transmission element (3) is transmitted to the mechanism box- force transmission element connection (2.1), the mechanism box arm (2.5) moves around the mechanism box joint (2.6), the mechanism box pin (2.3) connected to the mechanism box arm (2.5) moves the closing sealing strip component (1) vertically towards outside of the wing, and the closing sealing strip component (1) closes the gap between the frame and the wing.
3- The invention is about a closing insulation system in sliding window and door systems according to the claims 1 and 2, and its characterized by the feature that the load coming from the handle (4) connected to the wing (6) and through the mediating force transmission element (3) is transmitted to the mechanism box-force transmission element connection (2.1), the mechanism box arm (2.5) moves around the mechanism box joint (2.6), the mechanism box pin (2.3) connected to the mechanism box arm (2.5) moves the closing sealing strip component (1) vertically towards inside of the wing, and the closing sealing strip component (1) opens the gap between the frame and the wing.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TR201400832 | 2014-01-24 | ||
TR2014/00832 | 2014-01-24 |
Publications (1)
Publication Number | Publication Date |
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WO2015112104A1 true WO2015112104A1 (en) | 2015-07-30 |
Family
ID=52684636
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/TR2015/000036 WO2015112104A1 (en) | 2014-01-24 | 2015-01-22 | Closing insulation system in sliding windows and doors |
Country Status (1)
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WO (1) | WO2015112104A1 (en) |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1327738A2 (en) * | 2002-01-10 | 2003-07-16 | van Parys, Remi Emiel | Tilting window with closing system and actuating mechanism and scissor-type mechanism for tilting window |
EP1538298A1 (en) * | 2003-12-04 | 2005-06-08 | ROTO FRANK Aktiengesellschaft | Window, door or similar with at least one controllable sealing member between a wing and a fixed frame |
US20140007720A1 (en) * | 2012-07-03 | 2014-01-09 | Kenneth R. Evensen | Systems and methods for unlocking/locking and opening/closing windows |
-
2015
- 2015-01-22 WO PCT/TR2015/000036 patent/WO2015112104A1/en active Application Filing
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1327738A2 (en) * | 2002-01-10 | 2003-07-16 | van Parys, Remi Emiel | Tilting window with closing system and actuating mechanism and scissor-type mechanism for tilting window |
EP1538298A1 (en) * | 2003-12-04 | 2005-06-08 | ROTO FRANK Aktiengesellschaft | Window, door or similar with at least one controllable sealing member between a wing and a fixed frame |
US20140007720A1 (en) * | 2012-07-03 | 2014-01-09 | Kenneth R. Evensen | Systems and methods for unlocking/locking and opening/closing windows |
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