RU199724U1 - DOOR BLOCK - Google Patents

Abstract

The utility model relates to the field of construction, more specifically to metal door structures used as external doors in residential and industrial premises. A door block is proposed that contains a metal door frame, a metal door leaf pivotally connected to it, and a seal located between them. What is new is that the metal door frame is made of a perforated profile, the perforations of which are made in several rows and are preferably staggered, the seal completely overlaps all the perforations, and the metal door leaf contacts the seal through a gasket made of plastic profile ... The technical result consists in reducing the heat transfer of the door unit due to a significant reduction in the area of thermal bridges and an increase in their length, which makes it possible to reliably insulate the room and eliminate the formation of condensation. 3 ill.

Description

The utility model relates to the field of construction, more specifically to metal door structures used as external doors in residential and industrial premises.

From the prior art door blocks of various designs are known, made entirely of wood, and of other materials in combination with wood, as well as entirely of other materials.

The disadvantage of wooden door blocks is not only the relatively high cost of wood, but also the susceptibility of wooden elements to warping and distortions, which negatively affects the accuracy of execution.

On the other hand, although the metal is more preferable in many respects, it has good thermal conductivity and, therefore, has poor thermal insulation properties.

To improve the thermal insulation properties of metal door blocks, various non-metallic inserts, for example, plastic, composite, wood, etc., can be used, which are placed in the grooves of the profile metal elements of the door block to interrupt a solid thermal bridge made of metal so that frost metal did not penetrate into the room, as well as to exclude condensation that occurs at the border of the warm and cold areas, which leads to the formation of ice on the door and door frame during winter periods.

Thus, a metal door is known from the prior art (RU 79920 U1 dated 20.01.2009), which contains a frame of a door frame fixed along the perimeter of a door opening from interconnected metal profile products and a door leaf installed with the ability to rotate, consisting of an outer metal sheet and the inner lining, installed in parallel with the formation of a gap, around the perimeter of which a frame of interconnected metal shaped products is placed, while the frame of the door frame and the frame of the door leaf are each made of at least two contours of hollow shaped products installed with a gap between them along the entire perimeter and connected by jumpers rigidly fixed to the profile products on both sides of the gap filled with thermal insulating material.

The disadvantage of this door is the technological complexity of its manufacture, as well as freezing at large temperature drops, i.e. condensation of warm air from the room on a cold door frame.

Known is a metal door with a thermal break (RU 164652 U1, dated 09/10/2016), mounted on hinges in the frame and containing an outer sheet of metal and an MDF panel (medium density fiberboard) for interior decoration, a rubber seal, metal profiles, an inner sheet of metal, a panel made of foam, located between the inner sheet of metal and the MDF panel, the other side of the inner sheet of metal is located with the possibility of contact with a thermal break made along the perimeter of the door, between the inner sheet of metal and the outer sheet of metal, foil-coated isolon and mineral wool (basalt plate) are additionally laid, with At the same time, a thermal break is made in the frame of the same material as in the door, mineral wool (basalt slab) is laid on both sides of the thermal break in the frame, while special metal profiles are used to lay insulating materials, rigidly fix them and design the appearance , along the inner perimeter of the frames A rubber seal has been laid.

The disadvantage of this door is the technological complexity of its manufacture, the use of moisture-resistant plywood as a material for thermal break, which has a relatively high thermal conductivity, as well as a high cost price.

The closest technical solution can be considered a door with two thermal breaks, which contains a door leaf mounted on hinges in the frame, a door frame, a seal, thermal breaks made along the perimeter of the door, the door leaf consists of the main, lock, internal and decorative parts, while the lock part of the door leaf is attached to the main part, the inner part of the leaf is attached to the middle part of the leaf, the decorative panel is installed in the inner part of the leaf, which has a U-shaped profile; the door frame consists of the main, locking and inner parts of the frame, while the locking part of the frame is attached to the main part of the frame, the inner third part of the frame is attached to the middle part of the frame, an internal decorative platband is mounted on the inner part of the frame; thermal breaks are formed by separating parts of the canvas with heat-insulating gaskets made of synthetic material installed between the main and locking parts of the canvas, the locking and inner parts of the canvas, the main and locking parts of the frame, the locking and inner parts of the frame, the inner part of the frame and the decorative casing; also contains four circuits of magnetic seals that create three air chambers, namely between the main part of the web and the main part of the frame, between the main part of the web and the inside of the frame, between the hinge part of the web and the inside of the frame, between the inside of the web and the platbands, while the main and inner parts of the frame, the main and locking parts of the canvas are filled with insulation; and the hinge part of the frame is filled with sealant (see RU 181918 U1 dated 26.07.2018).

The disadvantages of the prototype include a large number of structural elements and the technological complexity of manufacturing, high cost and, most importantly, insufficiently stable thermal insulation characteristics under various operating conditions, which leads to freezing with frequent large temperature drops.

The technical problem to be solved by the proposed utility model is to create a door block that is much cheaper than existing ones, is technologically advanced in production, and in terms of performance and thermal insulation has all the advantages of solid wooden door frames, but is more durable compared to them, better resists exposure to natural factors and insects, does not split, does not crack and does not warp.

The technical result achieved in this case is to reduce the heat transfer of the door block.

The technical result is achieved due to the fact that the proposed door block contains a metal door frame, a metal door leaf pivotally connected to it and a seal located between them. New, according to the proposed utility model, is that the metal door frame is made of a perforated profile, the perforations of which are made in several rows, the seal completely covers all perforations, and the metal door leaf contacts the seal through a gasket made of a plastic profile. It is advisable if the holes of the perforated profile are staggered.

Making the door frame from a perforated profile, the perforations of which are made in several rows, can significantly reduce the thermal conductivity of the door frame and eliminate the formation of condensation. The heat that seeks outward does not move in a straight line, but begins to bend around the perforation holes, due to which the distance overcome by the heat increases. Preferably the holes are staggered. As a result, the heat is distributed along the profile and partially returns back. The cold penetrating from the street also does not move in a straight line, but begins to bend around the perforation holes, and during the time it passes inward, it has time to heat up. Thus, in the thickness of the door block, the meeting of cold and warm flows is excluded, which eliminates the formation of condensation. The perforation prevents the appearance of cold bridges, which is why the perforated profile in the proposed manner has excellent heat-saving characteristics.

Placement of the seal in such a way that it completely covers all perforations of the door frame profile provides closed air chambers, which are, in essence, heat insulators that reduce the thermal conductivity of the door frame.

To prevent the appearance of cold bridges and to exclude the transfer of cold from the metal door frame to the metal door leaf, the latter contacts the seal through a gasket made of a plastic profile, which ensures a decrease in thermal conductivity.

Thus, the set of essential features of the proposed utility model is necessary and sufficient for realizing the purpose and achieving a technical result due to a significant reduction in the area of thermal bridges and an increase in their length, which makes it possible to reliably insulate the room and eliminate the formation of condensate.

Further, the proposed utility model will be disclosed in more detail, with reference to graphic materials, on which:

figure 1 is a schematic representation of the door block and the perforation holes of the door frame profile;

Fig. 2 is a schematic sectional view of a door block with an open door;

Fig. 3 is a schematic sectional view of a door unit with a closed door.

It should be noted that one of the preferred embodiments is disclosed below, which is not the only one possible.

The door unit disclosed in the present application is proposed preferably for use as an external door in residential and industrial premises.

The door block contains a metal door frame 1, a metal door leaf 2 pivotally connected to it and a seal 3 located between them.

The metal door frame 1 is made of a metal profile. Steel is preferred as the profile material, but it can be aluminum or any other suitable metal. Perforation is made in the metal profile of the door frame 1. The perforation holes 4 are made in several rows and are preferably arranged so that the bridges between the holes of one row are opposite the holes of the other row. It is advisable to arrange the perforation holes in a checkerboard pattern. The perforations 4 are preferably rectangular or similar in shape. The location and length of the holes 4 is calculated using the formulas and has a physical basis, due to which a profile perforated in this way is endowed with low thermal conductivity, which is practically reduced to zero. Heat and cold do not move in a straight line, but begin to bend around the holes 4 of the perforations, and since the holes 4 are staggered and in several rows, the distance traveled by both heat and cold increases. As a result, both heat and cold are evenly distributed in the profile, which makes it possible, among other things, to exclude the meeting of cold and warm flows and eliminate the formation of condensation.

Depending on the operating conditions, one or more cavities of the door frame 1 can be filled with insulation, such as, for example, polyurethane foam, mineral fiber or any other material suitable for these purposes.

The metal door leaf 2 is hingedly connected to the metal door frame 1 by means of hinges. The metal door leaf 2 contains interconnected outer and inner surfaces, preferably made of steel sheet. Depending on the operating conditions, the outer and inner surfaces can be made of aluminum or any other suitable metal. Between the outer and inner surfaces, insulation can be provided, such as, for example, foam, polyurethane foam, mineral fiber or any other material suitable for this purpose.

A seal 3 is provided between the metal door frame 1 and the metal door leaf 2, which can be made of rubber or other suitable materials. The seal 3 is placed in such a way as to completely overlap all perforations 4, which makes it possible to form several closed air chambers in the door block, which are, in essence, heat insulators, which reduce thermal conductivity by creating an air cushion between the zones of heat and cold.

The metal door leaf 2 contacts the seal 3 through the gasket 5 made of a plastic profile. The presence of a plastic gasket prevents the appearance of cold bridges and excludes the transfer of cold from the door frame 1 to the door leaf 2, which reduces the thermal conductivity of the door block.

The proposed device is used as follows.

The door unit is installed in the usual way in a wall opening for entering / exiting a building. When the door is closed, maximum thermal insulation of the interior is achieved at the installation site of the proposed door unit by making the door frame from a perforated metal profile with extremely low thermal conductivity, due to the presence of a plastic gasket that prevents the appearance of cold bridges and excludes the transfer of cold to the metal door leaf, as well as by overlapping by sealing the perforations to create closed air chambers.

Thus, the proposed technical solution allows you to create a door block that is much cheaper than existing analogs, is technologically advanced in production, and significantly surpasses them in performance and thermal insulation due to a significant reduction in the area of thermal bridges and an increase in their length, which makes it possible to reliably insulate a room and eliminate the formation condensate.

Claims (2)

1. A door block containing a metal door frame, a metal door leaf pivotally connected to it and a seal located between them, characterized in that the metal door frame is made of a perforated profile, the perforations of which are made in several rows, the seal completely overlaps all perforations, and the metal door leaf is in contact with the seal through a gasket made of a plastic profile. 2. A door block according to claim 1, characterized in that the holes of the perforated profile are staggered.

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