RU203128U1 - CORNER CONNECTION OF HOLLOW PROFILES OF WINDOWS AND MOSCOW NETS - Google Patents

Abstract

The utility model relates to the field of building structures, namely to the corner connection of hollow metal profiles used as window frames, mosquito nets and similar building structures. The corner connection of hollow window frames and mosquito nets contains two hollow metal profiles cut into a bevel, butted together along the planes of the cut, a metal connecting corner with elements of its fixation, introduced into the cavities of the profiles, according to the utility model, the connecting corner is made of sheet metal, metal and in section has the shape of a channel with a wall and shelves. The metal used is stainless steel or other coated steel or aluminum alloys. The fixing elements are in the form of longitudinal outer projections on the outside of the wall. The thickness of the metal sheet is preferably 1 mm. This value provides sufficient rigidity of the structure with such a connecting angle. The achieved technical result is that the design of the corner joint is simplified, since only one is used instead of two parts. In addition, the reliability of the connection of hollow profiles is increased, since the connecting angle is installed in the profile cavity with interference , since the steel projections of the corner are embedded in the body of the aluminum profile by an amount of (0.01-0.1) mm, providing a rigid fixation of the mutual position of the mating elements.

Description

The utility model relates to the field of building structures, namely the corner joining of hollow metal profiles used as window frames and mosquito nets, as well as similar building structures.

Known angular connection of hollow profiles, including plate liners, having beveled ends for the formation of joint surfaces between them, made in accordance with the dimensions of the cavities of the connected profiles and equipped with fasteners in the form of spring-loaded clamps installed in the cavities of the liners, for connecting the liners to each other at their ends docking and at opposite ends for the kinematic connection of the liners with the walls of the profiles, and in the walls of the profiles being connected opposite the location of the fasteners, mounting holes are made (RF patent No. 117165, IPC E06B 3/96, publ. 20.06.2012).

The disadvantage of the known device is its complex design, since the connector body consists of two different parts of a complex shape, made by machining from cast blanks, as well as the complexity of assembly due to the presence of several fasteners - 2 clamps, 2 springs and 2 -x inserts. The assembly is carried out by installing clamps, springs and inserts into the body elements, and fixation by rolling the inserts in the body, which requires special equipment, which greatly complicates the assembly.

Known angular connection of hollow profiles, containing hollow profiles, the connected ends of which are cut at an acute angle and fixed by a connecting element made cast in the form of a corner with holes, and fasteners with which the connecting element is fixed in the profiles (patent RU No. 17559, IPC E06B 3/96, publ. 10.04.2001).

The disadvantage is the complexity of the design and assembly, since the fastening of the connecting element during installation is carried out with two screws, in special holes that must be drilled in the profiles. In addition, making the connecting element cast does not ensure the accuracy of its geometric dimensions requires their mechanical correction, which significantly complicates the assembly of the structure.

Nowadays, mosquito nets have become widely used to protect the premises from the penetration of unwanted insects, fluff, small debris and dust. In addition, such structures should protect pets from falling out of the windows, and, most importantly, protect children from this.

However, the existing serial designs of mosquito nets do not meet these requirements, and their corner connection of profiles in the form of plastic outer connecting corners does not ensure their reliable connection. Photo on the website: http://strport.ru/okna/moskitnaya-setka-na-okna (Appendix 1).

To increase the strength and reliability of the connection between hollow profiles, overhead plastic or metal overhead corner elements are used. Website: http://strport.ru/okna/moskitnaya-setka-na-okna (Appendix 2).

It should be noted that such overhead corner pieces are optional parts that must be installed by the consumer. In addition, they do not decorate the appearance of the mosquito net, but rather worsen it.

The closest in technical essence to the claimed utility model, selected as a prototype, is "Corner connection of hollow frame or window profiles", described in utility model RU No. 199347, with a priority of 05/26/2020.

The corner connection of the hollow profiles of the frame or windows contains two hollow metal profiles cut into a bevel, docked together along the cut planes and fixed by a one-piece connecting corner with holes introduced into their cavities to facilitate weight, which is fixed in the cavities by fasteners.

The connecting corner is made of an aluminum profile, on two opposite sides of the corner there are through grooves for accommodating fasteners, and the fasteners are made in the form of fluoroplastic rods extruded into the grooves and protruding above the plane of the sides of the corner.

When installing the corner, the excess fluoroplastic of the bars protruding from the grooves is cut off.

The disadvantage of the prototype should be attributed to the fact that the connecting corner consists of two elements, namely, from the corner of aluminum alloy and the fastening element, which must be connected to each other before installing the corners inside the profile, as the author claims by the extrusion method, as well as the presence of waste in in the form of cut sections of fluoroplastic rods during the installation of the corner.

But, the main drawback of the prototype design is that the corner is installed inside the profile freely and is not based on the entire lateral surface, but pointwise, along the fluoroplastic fasteners protruding above its plane, which are cut to the size of the internal hole of the profile when it is installed in the profile.

PTFE rods cannot perform the function of fasteners and are not included in such a list according to GOST 27017-86 "Fasteners, terms and definitions".

It should be noted that according to (GOST 10007-80) fluoroplastic is characterized by softness and fluidity, its density is 2.18-2.21 g / cm3. In technology, this indicator is usually referred to as "cold flow". At normal temperatures, under a slight load, fluoroplastic parts begin to deform or, as they say, "flow".

In addition, the coefficients of linear thermal expansion for aluminum and fluoroplastic differ by almost two times (any reference book on the technical characteristics of plastics and metals).

These circumstances raise doubts about the reliability of fixing the angle inside the profile, since the basing is carried out only on fluoroplastic rods subject to "cold flow", that is, they will deform, decreasing in size at normal temperatures.

If we take into account the significant difference in the coefficients of linear expansion of aluminum and fluoroplastic, then at low temperatures the aluminum profile will shrink more than the fluoroplastic bar and, therefore, the bar will decrease in height. At high temperatures, the aluminum profile will increase in size more than the fluoroplastic, already compressed bar. As a result of these factors, a gap will gradually appear and increase between the inner surface of the profile and the end of the fluoroplastic rod, and the corner joint will begin to "slap" and will cease to perform the connecting function, which ensures the integral structure of the structure.

The claimed utility model is aimed at simplifying the design of the corner joint and increasing the reliability of the joint of hollow profiles.

The problem is solved due to the fact that in the corner joint of hollow profiles of window frames and mosquito nets, containing two hollow metal profiles cut into a bevel, butted together along the cut planes, a metal connecting corner with elements of its fixation, introduced into the cavity of the profiles, according to the useful model, the connecting corner is made of sheet metal, and in section has the shape of a channel with a wall and shelves. The fixing elements are made in the form of longitudinal outer protrusions on the outer side of the wall.

The thickness of the metal sheet is preferably 1 mm. This value ensures sufficient structural rigidity of the connecting bracket.

The angle metal can be stainless steel, coated steel or aluminum alloys.

On each side of the corner, at least two longitudinal protrusions are made, interacting with the inner surface of the profile hole.

The overall dimensions of the section of the corner in the form of a channel, without taking into account the height of the longitudinal outer protrusions, correspond to the internal dimensions of the profile.

Longitudinal protrusions are formed by drawing during stamping, while the length l of each longitudinal protrusion is not less than 0.4L of the channel wall length, and the width of each longitudinal protrusion is 5-10 sheet metal thicknesses and depends on the dimensions of the frame profiles in which the connecting corner is used ...

The overall overall dimension, including the height of the shelves H plus the height h of the longitudinal protrusions, exceeds the size of the mating hole of the profile by an amount of (0.01-0.1) mm, which provides an interference fit in the connection of the angle with the profile.

When the size of the protrusion is less than 0.01 mm, the amount of penetration of the steel protrusion into the body of the aluminum profile decreases and the efficiency of rigid fixation of the connected elements among themselves decreases.

When the size of the protrusion is more than 0.1 mm, the value of the penetration of the steel protrusion into the body of the aluminum profile increases and the pressing force and the probability of deformation of the profile when the corner is connected to the profile increase.

The specified value (0.01-0.1) mm of the excess of the size of the connecting angle relative to the size of the mating hole of the profile, many times exceeds the value of the temperature deviations of the steel connecting angle and the aluminum profile, which ensures the guaranteed connection of these elements in the range of temperature fluctuations in Russia.

The achieved technical result consists in the fact that the design of the corner joint is simplified, since instead of two parts, only one is used.

In addition, the reliability of the connection of hollow profiles is increased, since the connecting angle is installed in the profile cavity with an interference fit, since the angle projections are embedded in the body of the aluminum profile by an amount of (0.01-0.1) mm, providing rigid fixation of the mutual position of the mating elements.

The essence of the utility model is illustrated by drawings, which show:

FIG. 1. Connecting corner. Plan view.

FIG. 2. View along arrow A in FIG. one.

FIG. 3. Section b-b from fig. one.

FIG. 4. Diagram of the design of the claimed corner joint of the profiles.

The corner connection of the hollow profiles of window frames and mosquito nets contains two hollow metal profiles 1 cut into a bevel, docked together along the cut planes, a metal connecting corner 2, introduced into the cavities of the profiles 1, with elements for fixing it.

The connecting corner 2 is made of sheet metal, preferably 1 mm thick and in cross-section has the shape of a channel with a wall 3 and shelves 4, and the fixing elements are made in the form of longitudinal outer protrusions 5 on the outer side of the wall 3.

The metal of the corner 2 can be stainless steel, coated steel or aluminum alloys.

On each side of the corner 2, at least two longitudinal outer protrusions 5 are made, interacting with the inner surface of the opening of the profile 1.

To facilitate assembly, the ends of the shelves 4 corners are cut into a bevel 6.

The overall dimension H along the height of the shelf 4 of the corner 2, without taking into account the height of the longitudinal outer protrusions 5, correspond to the internal dimensions of the profile.

Longitudinal protrusions are formed 5 by drawing during stamping, while the length l of each longitudinal protrusion 5 is not less than 0.4L of the length of the channel wall 4, and the width of each longitudinal protrusion is 5-10 sheet metal thicknesses and depends on the dimensions of the frames in which it is used connecting corner.

The total overall dimension B of the corner, including the height of the shelves H plus the height h of the longitudinal protrusions, exceeds the size of the mating profile hole by an amount of (0.01-0.1) mm.

The assembly of the corner joint is carried out as follows.

The connecting corner 2 is installed in the cavity of the profile 1 and, by pressing, for example, a hydraulic press, is pushed forward until it stops. In this case, the longitudinal outer protrusions 5 of the corner 2 are introduced into the body of the aluminum profile 1 with an interference fit of (0.01-0.1) mm, providing a rigid fixation of the mutual position of the mating elements.

Tests carried out on the manufactured samples have shown the reliability of the angular connection of the profiles.

Claims (10)

1. Corner connection of hollow profiles of window frames and mosquito nets, containing two hollow metal profiles cut into a bevel, butted together along the cut planes, a metal connecting corner with elements for fixing it, introduced into the cavities of the profiles, characterized in that the connecting corner is made of sheet metal metal and in section has the shape of a channel with a wall and shelves, and the fixing elements are made in the form of longitudinal outer protrusions on the outer side of the wall. 2. A corner joint according to claim 1, characterized in that stainless steel or other coated steel is used as the metal. 3. A corner joint according to claim 1, characterized in that aluminum alloys are used as the metal. 4. The corner joint according to claim 1, characterized in that the overall dimensions of the section of the corner in the form of a channel without taking into account the height of the longitudinal outer protrusions correspond to the internal dimensions of the profile. 5. The corner joint according to claim 1, characterized in that at least two longitudinal protrusions are made on each side of the corner. 6. The gusset according to claim 1, characterized in that the longitudinal projections are formed by extrusion during stamping. 7. A corner joint according to claim 1, characterized in that the length l of each longitudinal protrusion is not less than 0.4L of the channel wall length. 8. The gusset according to claim 1, characterized in that the width of each longitudinal protrusion is 5-10 sheet metal thicknesses and depends on the dimensions of the frames in which the gusset is used. 9. A gusset according to claim 1, characterized in that the thickness of the sheet metal is preferably 1 mm. 10. The gusset according to claim 1, characterized in that the overall dimension, including the height of the shelves H plus the height h of the longitudinal protrusions, exceeds the size of the mating profile hole by an amount of (0.01-0.1) mm.

Images