WO2023149817A1 - Linear slot diffuser with flap fastener assembly (embodiments) - Google Patents

Abstract

The present technical solution relates to the field of equipment for ventilation systems, and more particularly to linear slot diffusers that can be built into metal frame plasterboard ceilings. The technical result is a more efficient distribution of the air flows passing through the diffuser, achieved by fastening flaps with the aid of brackets on a flap fastener assembly. In a first preferred embodiment of the claimed solution, a ventilation slot diffuser is proposed in the form of two metal profiles connected to one another by a reinforcing crosspiece, wherein disposed on said reinforcing crosspiece is a flap fastener assembly in the form of a profile containing recesses for receiving flaps which are fastened by brackets that allow the flaps to be pivotably clamped to the profile.

Description

LINEAR SLOT DIFFUSER WITH LAMEL FIXING ASSEMBLY (OPTIONS)

FIELD OF TECHNOLOGY

This technical solution relates to the field of equipment for ventilation systems, in particular to linear slot diffusers built into the ceiling, made of plasterboard (gypsum plasterboard) and a metal frame.

BACKGROUND OF THE INVENTION

Linear slot diffusers are used for installation in false ceilings to hide the frame of the ventilation grille and ensure the required distribution of air flows.

From the prior art, various types of linear diffusers are known that are built into the GKL ceiling. Examples of such solutions are diffusers known from the sources ES 1064231 U, US 4537347 A, KR 20130108792 A.

Диффузор содержит ламели, перекрывающие канал для прохождения воздушных потоков. На каждый канал применяется конструкция из двух ламелей, закрепленных на внутренних стенках диффузора. Такая конструкция является ненадежной и неэффективной, поскольку не позволяет формировать направление воздушного потока, максимально направленному по поверхности потолка (примерно 90 градусов), а также такая конструкция не обеспечивает должной фиксации ламелей, что может приводить к их смещению под силой воздушных потоков. As one of the analogs, we can consider the design of a slot diffuser manufactured by Redvent

The diffuser contains lamellas blocking the channel for the passage of air flows. For each channel, a construction of two lamellas is used, fixed on the inner walls of the diffuser. Such a design is unreliable and inefficient, since it does not allow the direction of the air flow to be maximally directed along the ceiling surface (about 90 degrees), and also this design does not provide proper fixation of the slats, which can lead to their displacement under the force of air flows.

SUMMARY OF THE INVENTION

The claimed device is aimed at solving a technical problem, in terms of creating a new efficient design of a slot diffuser that provides a more efficient and reliable principle of fixing the lamellas, which in turn allows you to more efficiently direct air flows.

The technical result is to increase the efficiency of the distribution of air flows passing through the diffuser by fixing the lamellae with brackets on the lamella fixation unit. In the first preferred embodiment of the claimed solution, a ventilation slot diffuser is presented, made in the form of two metal profiles connected to each other by a power jumper, while on the power jumper there is a lamella fixation unit, made in the form of a profile containing recesses for placing lamellas in them, fixed with brackets , providing clamping of the lamellas to the profile with the possibility of their rotation.

In one of the particular examples of the implementation of the diffuser, the recesses for accommodating the lamellas are C-shaped.

In another particular embodiment, the lamellae comprise a C-shaped recess portion for placement in the protrusions of the lamella fixation assembly.

In another particular embodiment, the staples include a clamping part that fixes the lamella in a C-shaped recess.

In another particular embodiment, the profile of the lamella fixing unit contains grooves for fixing the staples.

In another particular embodiment, the brackets are fixed with fasteners to the profile of the lamella fixation unit.

In another particular embodiment, the profile of the lamella fixing unit contains at least one cavity.

In another particular embodiment, the staples are interconnected.

In the second preferred embodiment of the claimed solution, a ventilation slot diffuser is presented, made in the form of two metal profiles connected to each other by a power jumper, while on the power jumper there is a lamella fixation unit, made in the form of a profile containing recesses for placing lamellas in them, fixed with a bracket , providing clamping of the lamellas to the profile with the possibility of their rotation.

In one particular embodiment, the recesses for accommodating the lamellas are C-shaped.

In another particular embodiment, the lamellae comprise a C-shaped recess portion for placement in the protrusions of the lamella fixation assembly.

In another particular embodiment, the bracket contains clamping parts that fix the lamellas in the C-shaped recess. In another particular embodiment, the profile of the lamella fixing unit contains at least one cavity.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 A - 1D illustrate the first version of the claimed technical solution.

Fig. 2A - 2B illustrate the second version of the claimed technical solution.

IMPLEMENTATION OF THE INVENTION

On FIG. 1A-1D show a first embodiment of the ventilation slot diffuser (100). The diffuser (100) is made of two metal profiles (10, I), each of which is a one-piece product. In the upper part of the profiles (10, 11), on their inner surface, a ledge or groove (101, 111) is made, designed to accommodate a decorative metal sheet (13).

Profiles (10, 11) can be made in various shapes and designs. The profiles (10, 11) are interconnected by a power jumper (12), which is, for example, a rectangular element (hollow or monolithic) made of metal and fixed with fasteners (for example, self-tapping screws) to the surface of the profiles (10, I) diffuser. Additionally, the profiles (10, I) may contain a specially made ledge (102, 112), which ensures the alignment of the power jumper (12), which further increases the rigidity of the slot diffuser (100). It should be noted that the shape of the power jumper (12) can be any, oval, cylindrical, etc., while retaining its main functionality in terms of forming the design of the diffuser (100).

In the central part of the diffuser (100) there is a lamella fixing unit (14), which is attached to the power jumper (12), for example, using fasteners or welding. The node (14) is a profiled element that can be made in various shapes, for example, trapezoidal, pyramidal, etc. The profile of the node (14) may be a one-piece deaf structure or contain one or more cavities. The lamella fixation unit (14) is designed to ensure reliable fastening and rotation of the lamellas (141, 142) that regulate the air flows passing through the slot diffuser (100).

The slats (141, 142) are products containing two main parts: a part for fixing on the knot (14), which contains a C-shaped recess; and elongated mainly, a rectangular part that provides the direction of air flows. The slats (141, 142) are made in the form of a single piece and are fixed with the help of brackets (144, 145) pressing part of the slats with a C-shaped recess in specially made recesses (143) of the assembly (14) profile. The recesses (143) are preferably made in a shape that repeats the surface profile of the C-shaped part of the lamella (141, 142), ensuring a snug fit of the lamellas to the body of the assembly (14).

The slats (141, 142) are fixed in the recesses (143) using brackets (144, 145), which have a clamping part that partially repeats the shape of the profile of the C-shaped part of the slats, which allows them to be placed in the C-shaped recess, providing both a reliable clamping force and variability of the range of movement of the slats (141, 142), allowing them to be fixed at any point in the range of their movement (angle a). The extreme points of movement of the slats (141, 142) are the surface of the assembly (14) and the inner surface of the profiles (10, 11), allowing, in addition to the two main positions (open/closed) of the slats, also to control the speed and volume of the air masses passing through the diffuser (100). In this case, each lamella (141, 142) can be independently securely fixed at any of the possible points in the range of its movement.

As shown in FIG. 1A and FIG. 1D, the assembly (14) may include slots (146) for holding the staples (144, 145). This principle of fixing staples (144, 145) is one of the implementation options. Another option would be to fix the brackets (144, 145) directly to the assembly profile (14), for example with self-tapping screws or some other type of attachment. On FIG. 1B shows an example of fixation by making protrusions due to the geometry of the node profile (14).

In one embodiment, the staples (144, 145) can be connected to each other using, for example, a plate or other type of rigid connection, which additionally ensures their fixation and fixation of the lamellas (141, 142). Possible variations in the manufacture of brackets depend on their design features and the design of the lamella fixation unit.

On FIG. 2A-2B show a second preferred embodiment of the inventive diffuser (100). In the second version, the lamella fixing unit (14) contains only one bracket (147), which contains two clamping parts that fix the lamellas (141, 142) in the C-shaped recesses (143). In this version, the profile of the assembly (14) does not require additional design solutions in the form of grooves for fixing the bracket, since the bracket (147) is a one-piece product that provides the required clamping force for the implementation of the functionality in terms of holding and rotating the lamellas (141, 142).

In one of the particular examples of implementation, the profiles (10, 11) can be made of a frame structure, which consists of three segments, where each segment is a frame containing a void inside, the area of \u200b\u200bthe internal space of which is greater than the area of the framing frame. The number and shape of the segments may be different.

Thus, when implementing the claimed design of the ventilation diffuser, a more efficient distribution of air flows passing through the diffuser (100) is ensured due to the reliable fixation of the slats (141, 142) held by the brackets (144, 145, 147), which makes it possible to significantly expand the range of their location at various points and increase the reliability of their fixation. At the same time, the claimed design of the diffuser (100) is more reliable compared to existing analogues, and implements a new design solution that has not previously been used in the analog series of such products, which further expands the arsenal of technical means, in particular, ventilation diffusers.

Claims

FORMULA 1. Ventilation slot diffuser, made in the form of two metal profiles connected to each other by a power jumper, while on the power jumper there is a lamella fixation unit, made in the form of a profile containing recesses for placing lamellas in them, fixed with brackets, providing pressing the lamellas to the profile with the possibility of rotation. 2. A diffuser according to claim 1, characterized in that the recesses for placing the lamellas are C-shaped. 3. The diffuser according to claim 2, characterized in that the lamellas contain a part with a C-shaped recess for its placement in the protrusions of the lamella fixation unit. 4. Diffuser according to claim 3, characterized in that the brackets contain a clamping part that fixes the lamella in a C-shaped recess. 5. The diffuser according to claim 1, characterized in that the profile of the lamella fixing unit contains slots for fixing the brackets. 6. Diffuser according to claim 1, characterized in that the brackets are fixed with fasteners to the profile of the lamella fixation unit. 7. Diffuser according to claim 1, characterized in that the profile of the lamella fixing unit contains at least one cavity. 8. Diffuser according to claim 1, characterized in that the brackets are interconnected. 9. Ventilation slot diffuser, made in the form of two metal profiles connected to each other by a power jumper, while on the power jumper there is a lamella fixation unit, made in the form of a profile containing recesses for placing lamellas in them, fixed with a bracket, providing pressing the lamellas to the profile with the possibility of rotation. 10. Diffuser according to item 9, characterized in that the recesses for accommodating the lamellas are C-shaped. 11. The diffuser according to claim 10, characterized in that the lamellas contain a part with a C-shaped recess for its placement in the protrusions of the lamella fixation unit. 12. Diffuser according to i.11, characterized in that the bracket contains clamping parts that fix the lamellas in the C-shaped recess. 13. Diffuser according to item 9, characterized in that the profile of the lamella fixing unit contains at least one cavity. 6