RU2794380C1 - Sliding assembly - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to window and door sliding blocks used for installation as windows, doors or partitions in building structures for various purposes, in particular, in residential premises. Sliding unit located between the floor and ceiling surfaces contains a movable block with sheet elements installed in a fixed frame, which contains an outer bowl and an inner bowl connected to each other by means of non-metallic frame inserts. Each bowl is provided with a support surface with a track profile installed on it, on which a longitudinal guide is fixed, and the movable block is made in the form of external and internal sash profiles fastened to sheet elements and interconnected by means of non-metallic inserts of the block, and is installed between the bowls of the fixed frame. Each sash profile is provided with supporting shelves interacting with the end surfaces of the sheet element, and limiting shelves interacting with the front surface of the sheet element and located on the side of the sheet element facing the bowl of the fixed frame. The movable block is equipped with roller bearings mounted on the longitudinal guides of the fixed frame, and the track profiles of the outer and inner bowls are interconnected by means of a non-metallic guide insert. The unit is equipped with a contact seal installed between the inner surface of the bowl and the outer surface of the bounding flange of the sash profile facing it, and the inner and outer bowls of the frame, as well as the limiting shelves of the sash profile of the block, have outer edges facing the center of the front surface of the sheet element and located along the edges of the leaf element. In this case, the distance "A" from the supporting surface of the bowl, located below the floor level, to the outer edge of the limiting shelf located along the floor surface, at least the outer sash profile of the block, does not exceed the distance "B" from the same supporting surface of the bowl to the outer edge the outer bowl of the frame, and the distance "B" does not exceed the distance "C" from the same supporting surface of the bowl to the floor surface.

EFFECT: increase in the resistance to heat transfer through a sliding assembly designed to provide the required strength and rigidity characteristics using metal structural elements with high heat transfer coefficients.

2 cl, 5 dwg

Description

The invention relates to the field of construction, namely to window and door sliding blocks used for installation as windows, doors or partitions in building structures for various purposes, in particular, in residential premises.

A sliding window assembly is known, located between the surfaces of the floor and the ceiling and containing a movable block with transparent sheet elements installed in a fixed frame, which contains an outer bowl and an inner bowl connected to each other by means of non-metallic frame inserts, each bowl is provided with a supporting surface installed on it a track profile, on which a longitudinal guide is fixed, and the movable block is made in the form of external and internal sash profiles fastened to sheet elements and interconnected by means of non-metallic inserts of the block, and is installed between the bowls of the fixed frame, while each sash profile is equipped with supporting shelves, interacting with the end surfaces of the sheet element, and limiting shelves interacting with the front surface of the sheet element and located on the side of the sheet element facing the bowl of the fixed frame, each movable block (leaf profile) is equipped with roller bearings mounted on the longitudinal guides of the fixed frame, and track the profiles of the outer and inner bowls are connected to each other by means of a non-metallic guide insert, while the assembly is equipped with a contact seal installed between the inner surface of the bowl and the outer surface of the bounding shelf of the sash profile facing it, and the outer bowl of the frame and the limiting shelf of the external sash profile of the block have outer edges , facing the center of the sheet element and located along the frame guides (see. Panoramic window Rehau HST Geneo external lamination

The disadvantages of the known sliding assembly are a reduced coefficient of resistance to heat transfer due to the large surface area of structural elements with a high heat transfer coefficient, in particular aluminum elements used in the manufacture of relatively large sliding assemblies, to ensure sufficient strength and rigidity of the movable assembly.

The technical objective of the claimed invention is the creation of a strong and rigid sliding window or door unit with a reduced thermal conductivity.

The technical result is to increase the resistance to heat transfer through a sliding assembly designed to provide the required strength and rigidity characteristics using metal structural elements with high heat transfer coefficients.

The problem is solved and the technical result is achieved by the fact that the sliding unit, located between the surfaces of the floor and the ceiling, contains a movable block with sheet elements installed in a fixed frame, which contains an outer bowl and an inner bowl connected to each other by means of non-metallic frame inserts, each bowl is equipped with a supporting surface with a track profile installed on it, on which a longitudinal guide is fixed, and the movable block is made in the form of external and internal sash profiles fastened to sheet elements and interconnected by means of non-metallic inserts of the block and installed between the bowls of the fixed frame, with each sash the profile is provided with supporting shelves interacting with the end surfaces of the sheet element and limiting shelves interacting with the front surface of the sheet element and located on the side of the sheet element facing the bowl of the fixed frame, the movable block is provided with roller bearings mounted on the longitudinal guides of the fixed frame, and the track profiles the outer and inner bowls are interconnected by means of a non-metallic guide insert, while the assembly is provided with a contact seal installed between the inner surface of the bowl and the outer surface of the bounding flange of the sash profile facing it, and the inner and outer bowls of the frame, as well as the limiting shelves of the sash profile of the block, have outer edges facing the center of the front surface of the sheet element and located along the edges of the sheet element, while, according to the invention, the distance "A" from the supporting surface of the bowl, located below the floor level, to the outer edge of the bounding shelf, located along the floor surface, at least least of the outer casement profile of the block does not exceed the distance "B" from the same bearing surface of the bowl to the outer edge of the outer bowl of the frame, and the distance "B" does not exceed the distance "C" from the same bearing surface of the bowl to the floor surface.

The technical result is also achieved by the fact that the roller bearing can be installed in the housing, which is located in the cutout of the sash profile, while the sash profile and the guide are located with a given gap with the possibility of forming a gap seal between them.

The invention is illustrated with the help of drawings.

In FIG. 1 shows a cross-section of the described sliding assembly in a vertical plane;

In FIG. 2 is the same, enlarged view of the lower part of the drawing in FIG. 1;

In FIG. 3 is an enlarged view of the sliding block of FIG. 2;

In FIG. 4 is an enlarged view of the top of the sliding block;

In FIG. 5 shows the ratio of the dimensions of the sliding unit "A", "B" and "C".

The described sliding unit is used as a building envelope for large rooms and can be made translucent. The node is installed, for example, in residential premises and is used as movable windows, doors, walls or partitions in country houses, cottages or apartments.

Sliding node is installed between the surfaces of the floor 1 and ceiling 2. The node contains a movable block 3 with sheet elements 4, such as transparent glass. The movable block 3 is installed in a fixed frame 5, which contains the outer bowl 6 and the inner bowl 7, interconnected by means of non-metallic inserts 8 of the frame. Each bowl 6 and 7 is provided with a support surface 9 with a track profile 10 mounted on it, on which a longitudinal guide 11 is fixed, made, for example, in the form of a rod. The supporting surface 9 is located below the floor level 1. The movable block 3 is made in the form of external 12 and internal 13 casement profiles fastened to the sheet elements 4 and interconnected by means of non-metallic inserts 14 of the block, and is installed between the bowls 6 and 7 of the fixed frame 5. Each the leaf profile 12 and 13 is provided with supporting shelves 15 interacting with the end surfaces 16 of the sheet element 4, and limiting shelves 17 interacting with the front surface 18 of the sheet element 4 and located on the side of the sheet element 4 facing the bowl 12 and 13 of the fixed frame 5. The movable block 3 is provided with roller bearings 19 mounted on the longitudinal guides 11 of the fixed frame 5. The track profiles 10 of the outer 6 and inner 7 bowls are interconnected by means of a non-metallic insert 20 of the guide. The assembly is equipped with a contact seal 21, for example, a brush, installed between the inner surface of the bowl 6 or 7 and the outer surface of the bounding shelf 17 of the corresponding sash profile 12 or 13 facing it. The outer 6 and inner 7 bowls have outer edges 22. The bounding shelves 17 have outer edges 23. Edges 22 and 23 face the center of the front surface 18 of the sheet element 4 and are located along the outer edges of the sheet element 4. least of the outer sash profile 13, located along the floor surface 1, does not exceed the distance "B" from the same supporting surface 9 to the outer edge 22 of the outer bowl 6, and the distance "B" does not exceed the distance "B" from the same supporting surface 9 to floor surface 1.

The roller support 19 can be installed in the housing 24, which is located in the cutout of the leaf profile 12 and 13. To reduce noise when moving the block 3, the housing is made of plastic. In this case, the leaf profile 12 and 13 is located with a given gap relative to the guide 11 with the possibility of forming a gap seal between them.

The mutual arrangement of the edge of the upper part of the sash profile 13 relative to the level of the ceiling 2 can be performed similarly to the above-described execution of the node in the area of the floor 1. That is, the distance "A" from the bounding surface 25 of the bowl 6 and 7, located above the level of the ceiling 2, to the outer edge 26 limiting shelves 27 of the sash profile 13, located along the surface of the ceiling 2, does not exceed the distance "B" from the same surface 25 to the outer edge 28 of the outer bowl 6, and the distance "B" does not exceed the distance "C" from the same surface 25 to the surface ceiling 2.

Sheet elements 4 can be glued into sash profiles 12 and 13 using adhesive sealant 29. To reduce the noise level from the movement of block 3, the track profile 10 can be installed on the supporting surface 9 of bowls 6 and 7 using a plastic insert 30. To prevent displacement roller bearings 19 in a plastic case 24, a locking screw 31 can be used. Condensate is drained from the structure downwards through drainage holes 32.

The described sliding unit is usually used with transparent sheet elements 4, that is, as a window sliding unit. To improve the quality of the premises used, the area of the sheet elements is increased to the maximum possible extent. Since skylights occupy up to 70% of the total area of the profile structure, they have the greatest impact on energy efficiency. The heat transfer resistance of double-glazed windows can be considered a key parameter when looking for suitable windows. To reduce the heat transfer coefficient of a double-glazed window, it is impossible to increase its thickness indefinitely. The number of cameras is also limited. Therefore, to reduce heat leakage, various technologies are used, which have significantly improved the energy efficiency of double-glazed windows.

Since the dimensions of the sliding unit significantly exceed the dimensions of the average double-glazed windows, the use of non-metals in its design is unacceptable in terms of strength parameters. However, non-metals generally have acceptable heat transfer characteristics providing high resistance to heat transfer.

In addition, the claimed sliding assembly is supposed to be used in climatic conditions with a temperate continental and continental climate, that is, with a noticeable difference in ambient temperatures. Therefore, it is preferable to use multi-chamber structures, which also increases the requirements for structural strength.

The use of metal in the structure to provide the required strength and stiffness characteristics significantly increases the heat transfer coefficient of the assembly, so the area of \u200b\u200bmetal elements in direct contact with the environment should be excluded or minimized.

To ensure the condition for minimizing the area of the metal structural elements of the assembly in contact with the environment, the condition is met in which the edge 22 of the metal bowl 6 does not protrude above the level of the finished floor 1, and the outer edge 23 of the metal limiting shelf 17 does not protrude above the level of the edge 22 and the floor level 1. This condition is characterized by the following features of the claims: the distance "A" from the supporting surface 9 of the bowl 6 and 7 to the outer edge 23 of the bounding shelf 17, at least the outer sash profile 13, located along the surface of the floor 1, does not exceed the distance "B » from the same supporting surface 9 to the outer edge 22 of the outer bowl 6, and the distance "B" does not exceed the distance "C" from the same supporting surface 9 to the floor surface 1.

Increasing the distance "A" will increase the area of the shelf 17 of the metal sash 12, which is in direct contact with the environment, which will increase the heat transfer through the sliding unit.

Reducing the specified distance "A" will lead to unreliable contact of the outer surface of the shelf 17 with the contact seal 21 along its entire length, which will lead to the penetration of the environment into the internal cavities of the assembly and to a significant heat transfer into the room.

In addition, if transparent sheet elements 4 are used in the assembly, an increase in the distance "A" will lead to a decrease in the insolation of the living space, that is, the degree of its illumination.

The execution of the track profile 10 and the longitudinal guide 11 in the form of separate elements reduces heat transfer to the structural elements by reducing the heat transfer between the contact surfaces compared to structures made at the same time, and allows you to coordinate the shape of the guide 11 for its possible performance of the functions of a labyrinth seal in conjunction with profiles 12 and 13 to increase the resistance to the flow of cold air into the room.

Non-metallic inserts 8, 14 and 20 are designed to reduce heat transfer and are used in most insulating glass designs.

Thus, the described sliding unit, which is used to cover a large area of the room and has increased strength and rigidity characteristics due to the use of metal elements in it with insufficient heat transfer characteristics, ensures compliance with the required values of heat transfer resistance due to the optimal relative position of the structural elements.

Claims (2)

1. A sliding assembly located between the surfaces of the floor and ceiling and containing a movable block with sheet elements installed in a fixed frame, which contains an outer bowl and an inner bowl connected to each other by means of non-metallic frame inserts, each bowl is provided with a supporting surface with a track mounted on it. a profile on which a longitudinal guide is fixed, and the movable block is made in the form of external and internal sash profiles fastened to sheet elements and interconnected by means of non-metallic inserts of the block, and is installed between the bowls of the fixed frame, while each sash profile is equipped with supporting shelves interacting with the end surfaces of the sheet element, and bounding shelves interacting with the front surface of the sheet element and located on the side of the sheet element facing the bowl of the fixed frame, the movable block is equipped with roller bearings mounted on the longitudinal guides of the fixed frame, and the track profiles of the outer and inner bowls are connected between each other by means of a non-metallic insert of the guide, while the assembly is equipped with a contact seal installed between the inner surface of the bowl and the outer surface of the bounding shelf of the sash profile facing it, and the inner and outer bowls of the frame, as well as the limiting shelves of the sash profile of the block, have outer edges facing the center of the front surface of the sheet element and located along the edges of the sheet element, characterized in that the distance "A" from the supporting surface of the bowl, located below the floor level, to the outer edge of the bounding shelf, located along the floor surface, at least the outer sash profile of the block is not exceeds the distance "B" from the same bearing surface of the bowl to the outer edge of the outer bowl of the frame, and the distance "B" does not exceed the distance "C" from the same bearing surface of the bowl to the floor surface. 2. The unit according to claim 1, characterized in that the roller bearing is installed in the housing, which is located in the cutout of the sash profile, while the sash profile and the guide are located with a given gap with the possibility of forming a gap seal between them.

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