RU131023U1 - WALL PANEL JOINT ASSEMBLY WITH CEILING - Google Patents

Abstract

The junction of the wall panel with the ceiling, comprising a ceiling slab with rigid corners fastening to it and a wall panel made in the form of a three-layer panel with a layer of heat and sound insulating material placed between the outer layers, installed between the corners so that their shelves cover the upper part wall panel, characterized in that between the inner surfaces of the shelves of the corners and the surfaces of the wall panel a layer of sealing mastic is applied, between the end of the wall at least two elastic gaskets with a layer of sealing mastic applied to them and forming a pressed cross-section in the form of squares adjacent to their sides to the ceiling plate, the end of the wall panel and the corners of the corners, as well as each other to the other, the holes for the fasteners in the ceiling slab are filled with a sealing material, and the corner element of a thermoplastic material is installed outside of each of the hard corners, adjacent it is gapless to a rigid corner and fastened to it by means of an adhesive joint, having longitudinal grooves located on the side facing the room, located near the edges and in the middle of the corner element, the central groove of the corner element interacting with a similar shape with a protrusion of a plinth made of thermoplastic material and mounted on top of the corner element, while the longitudinal grooves located near the edges of the corner element are filled with sealing material.

Description

The inventive utility model relates to the field of construction, and more specifically to the design and construction of biological laboratories intended for laboratory studies of dangerous and especially dangerous microorganisms that cause infectious diseases. The proposed technical solution is characterized by a high degree of protection of the premises adjacent to the biological laboratory and the personnel located in them from possible infection during work with highly pathogenic microorganisms.

Known butt connection node of the roofing and wall panels, described in patent RU No. 100105, IPC EV 1/38, publ. 12/10/2010, this butt assembly includes panel joints made in the form of three successively mounted shaped elements, the lower shaped element being fixed with one plane to the wall panel and the second to the roofing panel, the third shaped element has a U-shape, sealing joints are made with molded elements, fastened with rivets, between the molded elements and panel skins there are sealing rubber gaskets in the places of rivet attachment, all seams are sealed with silicone. The disadvantage of this butt joint is the insufficient degree of ensuring the tightness required for laboratory studies of highly pathogenic microorganisms.

There is also a knot for connecting wall panels with floor slabs, mainly of residential high-rise buildings of the 222 series, described in the utility model patent RU No. 44124, IPC Е04В 1/61, publ. 02/27/2005, which contains a wall panel at the base with an upper horizontal surface of the plate of the embedded part, two floor plates resting on the upper side surface of the wall panel, made with embedded parts containing the vertical and horizontal surfaces of the steel parts, located under the first wall panel a wall panel made from below with two vertical surfaces of the plates of at least one embedded part, the vertical surface of the embedded parts of the floor slabs connected by the first and second connecting parts to a horizontal plate surface of the embedded part of the wall panel at the base, the horizontal surfaces of the embedded parts of the floor slabs are interconnected by the third connecting part, and the vertical surfaces of the plates of at least one embedded part of the second wall panel are connected by the fourth and fifth connecting parts with a third connection piece. The disadvantage of this node connecting the wall panels with floor slabs is that it does not provide the required tightness of the joint between the wall panel and the ceiling, and therefore cannot be used in the construction of biological laboratories. It should also be noted that the wall panels used in industrial and residential construction are mainly made in the form of concrete slabs or partitions of gypsum-based material, which do not ensure the tightness of the room due to the presence of microcracks, hidden internal cavities (sinks) and other defects. Currently, when designing biological laboratories, the walls and ceilings of the laboratory (box) are made in the form of a three-layer panel with a layer of heat and sound insulating material installed between the outer layers, and the tightness of the laboratory (box) is provided by each of the outer layers of the wall and ceiling panels. The panels are made of painted stainless steel sheets with a layer of mineral wool between them. The design of such panels used for biological laboratories (boxes) is described in patent RU No. 98452, IPC Е04Н 3/08, publ. 10.20.2010, (footnote 24 in figure 2 of the patent description). The above design of the wall (ceiling) panel is hermetic, however, ensuring the tightness of the junction of this panel with the ceiling surface remains an urgent task.

As the prototype, as the closest in its technical essence, the mounting unit of the partition (panel) to the ceiling is selected, described in the source: Album A2.00 of the wall and roof panel mounting nodes according to TU 5284-170-39124899-2005-08-22. OJSC Novokuznetsk Plant of Reservoir Metal Structures, Novokuznetsk, 2005, sheet 22, which contains bent corners fastened by spring anchors to the ceiling overlapping panel, between which a wall partition (panel) is mounted, which is fastened to the walls of the corners with self-drilling screws. Between the end of the wall partition and the ceiling panel, a heat-insulating layer of mineral wool is installed. The disadvantage of the prototype is that it does not ensure the tightness of the junction of the partition panel with the ceiling, and therefore is not suitable for use in the construction of a biological laboratory.

The problem solved by the utility model is to create such a junction of the partition wall panel with the ceiling, which provides a guaranteed high degree of tightness, which eliminates the possibility of infection of personnel and the environment outside the biological laboratory when conducting research and work with highly pathogenic microorganisms inside it.

This is achieved by the fact that in the known node of the junction of the wall panel with the ceiling, containing the ceiling slab with rigidly fixed to it by fasteners of hard corners and a wall panel made in the form of a three-layer panel with a layer of heat and sound insulating material placed between the outer layers, installed between the corners so that their shelves cover the top of the wall panel, according to a utility model:

- a layer of sealing mastic is applied between the inner surfaces of the shelves of the corners and the surfaces of the wall panel;

- between the end of the wall panel and the ceiling slab installed, at least two elastic gaskets with a layer of sealing mastic applied to them, forming in a pressed state a cross-section in the form of squares adjacent with their sides to the ceiling slab, the end of the wall panel and the shelves of corners as well as to each other;

- holes for fasteners in the ceiling slab are filled with sealing material;

- on the outside of each of the hard corners there is installed an angular element made of thermoplastic material, which adheres to the rigid corner, and is attached to it by means of an adhesive joint, having longitudinal grooves from the side facing the room, located near the edges and in the middle of the angular element, the central groove of the angular the element interacts with a similar shape by the protrusion of the plinth made of thermoplastic material and mounted on top of the corner element, while longitudinal grooves placed near the edges of the trough, filled with sealing material.

The essence of the utility model is illustrated in figure 1, which shows in section the inventive node of the junction of the panel with the ceiling. The junction includes a ceiling slab 1 made of concrete, to which, by means of fasteners 2, for example, dowel-nails, rigid corners 3 made of stainless steel and coated with epoxy polyester powder are rigidly fixed. The holes in the plate 1 for the fasteners 2 are filled with a sealing material, for example, SOUDAL CLEANROOM sealant. Between the vertical shelves of the corners 3, a three-layer wall panel is installed, made of stainless steel sheet with a layer of heat and sound insulating material 5, for example, mineral wool, placed between the sheets 4. Between the inner surfaces of the shelves of the corners 3 and the surfaces (sheets 4) of the wall panel, a layer of sealing mastic 6 is applied, for example, adhesive rubber mastic KN-2, GOST 24064-80. Sheets 4 of the wall panel are coated with epoxypolyester powder paint. Between the end of the wall panel and the ceiling slab 1, at least two elastic gaskets 7 are installed with a layer of sealing mastic applied on them 8. As elastic gaskets 7, for example, rubber porous tubes PRP-40 K-50-300 can be selected forming in a pressed state (as shown in figure 1) a cross-section in the form of squares adjacent their sides to the ceiling slab 1, the end of the wall panel and the shelves of the corners 3, as well as to each other. Outside, on each of the hard corners 3, an angular element 9 of thermoplastic material is installed, for example, of Teflex PRO50 material based on polyvinyl chloride and rubber, which adheres to the tight corner 3 and is attached to it by means of adhesive-sealant 13. Corner element 9 from the side facing the room has longitudinal grooves 10 located near the edges, and a central groove 11 made in the middle of the corner element 9 and having, for example, a mushroom shape, as shown in figure 1, which interacts with a similar the protrusion of the baseboard 12 mounted on top of the corner element 9. Before installing the baseboard made of a thermoplastic material, for example, Teflex PRO50, the grooves 10 are filled with a sealing material, for example, SOUDAL CLEANROOM sealant.

Installation of the inventive joint node is as follows. In the ceiling slab 1, holes are made for fasteners 2 and filled with sealing material, then one of the hard corners 3 is installed, for example, the right one in figure 1, on the inner surface of the shelves of which a uniform layer of sealing mastic is applied 6. After that, a three-layer a wall panel adjacent by a metal sheet 4 (right in FIG. 1) to the corner 3 with a layer of mastic 6 applied thereon. Then, at least measures are installed between the end of the wall panel and the ceiling slab 1 , two elastic gaskets 7, made in the form of tubes, for example, of porous rubber, on which a layer of sealing mastic is applied 8. The dimensions of the elastic gaskets 7 are chosen so that in a pressed state they form a cross section in the form of squares adjacent their sides to the ceiling plate 1, the end of the wall panel and the shelves of the corners 3, as well as to each other. After that, a uniform layer of sealing mastic is applied to sheet 4 (left in FIG. 1) and the corner 3 is installed by means of fasteners 2 (left in FIG. 1). Then, corner elements 9 are installed by means of glue-sealant 13, longitudinal grooves 10 are filled with sealing material and skirting boards are installed over the corner elements 9, interacting with their protrusions 12 with the central grooves 11.

The applicant made and passed the test cycle of the claimed joint assembly, which showed high tightness (joint testing was carried out by creating indoor air pressure of 250 Pa) and the possibility of its use in the design of a biological laboratory designed to work with highly pathogenic microorganisms. In addition, the tests showed that when the ceiling plate sags by 5 mm (or by moving the wall panel towards the ceiling plate by the same amount), the joint tightness is not broken. The developed design of the junction node has been introduced in some research institutions of the Russian Federation related to healthcare and the biological industry.

Given the novelty and industrial applicability of the proposed technical solution, the applicant believes that it can be protected by a patent for a utility model.

Claims (1)

The junction of the wall panel with the ceiling, comprising a ceiling slab with rigid corners fastening to it and a wall panel made in the form of a three-layer panel with a layer of heat and sound insulating material placed between the outer layers, installed between the corners so that their shelves cover the upper part wall panel, characterized in that between the inner surfaces of the shelves of the corners and the surfaces of the wall panel a layer of sealing mastic is applied, between the end of the wall at least two elastic gaskets with a layer of sealing mastic applied to them and forming a pressed-down cross-section in the form of squares adjacent to the ceiling plate, the end of the wall panel and the shelves of the corners, as well as each to the other, the holes for the fasteners in the ceiling slab are filled with a sealing material, and the corner element of a thermoplastic material is installed outside of each of the hard corners, adjacent it is gapless to a rigid corner and fastened to it by means of an adhesive joint, having longitudinal grooves located on the side facing the room, located near the edges and in the middle of the corner element, the central groove of the corner element interacting with a similar shape with a protrusion of a plinth made of thermoplastic material and mounted on top of the corner element, while the longitudinal grooves located near the edges of the corner element are filled with sealing material.

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