RU193045U1 - Easily removable enclosure for hazardous areas - Google Patents

Abstract

The utility model relates to the field of construction and can be used for fastening to supporting frames of buildings and structures during installation of easily-ventilated panels that are displaced under excessive pressure resulting from accidents, in particular during a deflagration explosion in explosive rooms. The technical result of the claimed utility model consists in increasing the reliability of the structure during the operation of the building, in increasing the reliability of operation of the structure during dumping and in reducing the dependence of the critical load The task of dropping the structure from the parameters of the structure itself, as well as to simplify the installation of the structure. The easy-to-erase enclosing structure for hazardous areas contains a wall-mounted easy-to-remove panel, which is connected to the building frame by means of a destructible fastening assembly consisting of a self-tapping screw inserted into the through hole of the easy-to-erase panel, and located on the outside of the wall of the destructible element with a corresponding reinforcing washer, which fix the head th self-tapping screw, pressing the easy-to-erase panel to the building frame, characterized in that the through hole sequentially contains a centering sleeve located on the side of the building frame, used to center the self-tapping screw inside the through hole, and the remote sleeve to the remaining thickness of the easy-to-erase panel, made of metal, the inner diameter of the spacer sleeve is such that the head of the self-tapping screw with a crushed destructible element is free to pass la inside the sleeve, and centering sleeve length less than the length of distance sleeves.

Description

The utility model relates to the field of construction and can be used for fastening to supporting frames of buildings and structures, during the installation of easily ejected elements that are displaced under excessive pressure resulting from accidents, in particular during a deflagration explosion in explosive rooms. Easily erasable building envelopes are structures whose fastening structure allows for an emergency increase in pressure in the room to destroy the elements of the fastener and dump the structure outside the wall enclosure. An easy-to-remove element can be made in the general case in the form of a section of a building fence, in the form of a sandwich panel, in the form of a wall cassette, in the form of a window unit, etc.

Known easy-to-erect enclosing structure of explosive rooms according to patent No. 119780 of 04/27/2012, publ. 08/27/2012 (author and patent holder Stilba V.L., class IPC E04H 9/00).

This easily erasable enclosing structure for hazardous areas contains a wall panel, which is an easily erasable sandwich panel, which is connected to the building frame by means of support brackets made of a corner metal profile through destructible attachment points. Each bracket has a groove in the place of installation of the parts of the destructible fastener. Each destructible fastener assembly comprises a base sleeve that is located inside the opening of the easy-to-erase sandwich panel, and a destructible fastener connected to the base sleeve by means of a pin and a distance sleeve mounted on said pin. The spacer sleeve is made with an annular protrusion and is installed with the possibility of eliminating the contact of the stud and bracket, the spacer sleeves are made of caprolon, and fluoroplastic disks with calibrated thickness mounted on the studs by means of a threaded connection are used as destructible elements.

The technical result provided by this utility model according to US Pat. No. 119780, consists in increasing the efficiency of the structure as a whole with various pressure fluctuations inside the room, the reliability of the structure at normal pressure, and improving performance.

The disadvantage of this technical solution is as follows. The technical solution consists in the fact that a special support bracket made of a corner metal profile is attached to the building frame, to which a sandwich panel is attached by means of a destructible attachment point. To do this, it is necessary to drill holes in the sandwich panel for the grooves on this bracket, and this does not occur in the factory, but directly during the installation of the panel at the construction site, so that the holes in the panel coincide with the grooves of the bracket previously fixed to the building frame. To do this, raise the sandwich panel to the appropriate floor, mark the holes for the corresponding grooves, lower the panel, drill the corresponding holes, again lift the panel already for fastening. That is, the panel mounting process is complicated. In addition, for the installation of such a design, two workers are required - from the outside of the panel and from the inside, since the destructible fastener is fixed simultaneously from the outside with the corresponding fastener and from the inside with the destructible assembly to the support bracket. In addition, a destructible fastening assembly of this design, consisting of a destructible element, a spacer sleeve and a stud, must be mounted inside the support bracket, which is a metal trihedron, which significantly complicates the installation process, since it is quite difficult to get to the mounting location inside such a bracket.

Known easy-to-clear building envelope for explosive rooms according to patent No. 177097, from 05.10.2017, publ. 02/08/2018 (author and patent holder Mironov A.F., class IPK Е04Н 9/00, Е04В 1/36, Е04В 2/88). According to this patent, an easily erasable building envelope for explosive atmospheres includes a support element with at least one hole, a spacer washer disposed therein, a displaceable element detachably attached to the support element, and a destructible fastener. Destructible mount includes a fastener with a head passing through the hole in the support element and through the spacer washer and having a maximum lateral size at the end less than the minimum size of the hole, while the destructible element is made in the form of a washer placed between the head of the fastener and the support element. At least one support bracket is used as a supporting element, which is rigidly connected with the building supporting structure from the inside of the room, and a fastening element with a head is fixed inside the displaceable element from the inside of the room, while a spacer was installed in the hole in the supporting bracket with a gap, and the fastening element with a head can be made in the form of a screw, and the displaceable element can be made in the form of a window unit, in the form of a sandwich panel, in the form of a cassette, section of the building fencing, and the destructible element can be made with slits, of brittle material with sufficient strength.

The disadvantage of this technical solution is as follows. As a supporting element in this design, a supporting bracket is used, which, according to the figure, is made in an angular shape and is attached by one part to the wall or power frame of the building, and the other holds the easy-to-remove structure. As a rule, only window blocks are inserted in this way, inserted into the opening between the wall panels of the building. That is, this design involves a lag-drop panel fixed in the opening between two walls or elements of the power (load-bearing) frame of the building. In addition, the displaceable element of this design is fixed with destructible fasteners only on one side - for one sheet of the displaceable element, and not through and through. The sandwich panel consists of two sheets of metal with glued insulation between them. If the sandwich panel is attached only for one sheet, then such a panel will collapse (delaminate) during the operation of the building under the influence of its own weight, due to deformation due to temperature changes and wind load. Thus, the ideology of this design according to patent No. 177097 is applicable only for the installation of window blocks or other lightweight built-in wall elements, but is not applicable for the installation of external wall fences as such.

Known easy-to-erase structure (LSK) of walls made of three-layer sandwich panels of the Metal Profile company (see report "ATP LSK (easy to erase structures of three-layer sandwich panels)", sheets 10-11, on the website of the company Metal Profile, in the section Documents, page 2 https://metallprofil.ru/about/documents/7PAGEN 1 = 2) The design includes a sandwich panel with an easily resettable fastener, which is a self-tapping screw (self-tapping screw) with a loose fastening washer. The weakened mounting washer is a clamping washer with a bit off or sawn off part equal to the diameter of its hole, and a gasket (rubber gasket) of a certain shape assembled together with the EPDM. When mounting, the washer should be bitten or sawn down to prevent water from flowing and collecting. In another embodiment, bite off or saw off part of the clamping washer together with the EPDM gasket, while the self-tapping head is grinded from two sides to the base of the head. This technical solution allows for easy-to-ejection of the structure in the explosion and pressure of 0.7 kPa.

In this technical solution, a self-tapping screw (self-tapping screw) is used as a supporting element and a fastening element, onto which a sandwich panel is mounted, due to which there are no supporting brackets in this design, which greatly simplifies the design during installation. Mounting is carried out on the one hand - on the outside of the wall fence, which also simplifies the design during installation. Destructible site is made in the form of a clamping washer with a rubber gasket, which is fixed with the head of a self-tapping screw. This technical solution is selected as a prototype.

The disadvantage of this technical solution is as follows. During operation, the sandwich panel is deformed (bent) due to daily heating / cooling of the external surface of the wall, temperature differences outside and inside the building, as a result of a combination of these factors. The critical load under which the fasteners should collapse, as indicated in the technical documentation, is 0.7 kPa, i.e. 70 kgf / m ² , and wind loads on the wall of the building often reach 200 kgf / m ² . That is, the critical load of the destruction of the fasteners may be lower than the pressure drop created by the wind load. Since the fastening of the self-tapping screw is weakened, during operation, the fastening elements (washer, self-tapping screw) can "loose" and can be pushed out due to the deformation of the panel as a result of the action of temperature and wind loads, so this fastening design is unreliable. In addition, with the destruction of fasteners, the head of the self-tapping screw should break through the outer and inner sheets of the sandwich panel. And this, firstly, increases the critical load at which it is possible, and secondly, a self-tapping screw can get stuck inside the panel, since during the departure process the panel moves relative to the horizon and, accordingly, the screw is not strictly parallel, but at an angle. Also, various manufacturers of self-tapping screws produce washers from different materials, such as galvanized steel, stainless steel, aluminum, which in turn have different characteristics. The technical data indicates sheets with a thickness of 0.5 mm, and if the sheets are thicker, for example, 0.7 mm, then the critical load of the destruction of the fasteners increases, that is, this design is not universal.

This utility model aims to address the above disadvantages. The technical result of the claimed utility model is to increase the reliability of the structure during operation of the building, to increase the reliability of operation of the structure during dumping and to reduce the dependence of the critical load of dropping the structure on the parameters of the structure itself, as well as to simplify the installation of the structure.

The claimed technical result is achieved as follows. The easily removable enclosing structure for hazardous areas contains a wall easily removable panel, which is connected to the building frame by means of a destructible fastener assembly consisting of a self-tapping screw inserted into the through hole of the easily removable panel, and located on the outside of the wall of the destructible element with a corresponding reinforcing washer that fix the head self-tapping screw, pressing the easy-to-erase panel to the building frame, characterized in that through the hole consistently contains a centering sleeve located on the side of the building frame, used to center the self-tapping screw inside the through hole, and a distance sleeve to the remaining thickness of the easy-to-remove panel made of metal, the inner diameter of the distance sleeve being made so that the head of the self-tapping screw together with the crushed collapsible the element passed freely inside this sleeve, and the length of the centering sleeve is less than the length of the distance sleeve.

Additionally, the centering sleeve is 1/4 of the width of the easy-to-reset panel, and the distance sleeve is 3/4 of the width of the easy-to-reset panel, respectively.

Additionally, inside the spacer sleeve at the opposite end from the building frame, a centering element in the form of a caprolon sleeve is used, which serves to center the self-tapping screw inside the spacer sleeve.

Additionally, the centering sleeve may be made of a polymer material to protect the structure from freezing.

Additionally, the centering sleeve can be made of metal when using the design in fire barriers.

The essence of the technical solution is as follows. Inside the through hole of the easy-to-reset panel (hereinafter referred to as the LSK panel), two main bushings are sequentially located - centering and remote. In case of explosion under the pressure of the panel, the head of the self-tapping screw (self-tapping screw) crushes the destructible fastening element and freely moves inside the distance sleeve, and the LSK panel flies from the centering sleeve and the self-tapping screw. The centering sleeve serves to fix the self-tapping screw inside the hole of the LSK panel, and the remote sleeve serves to ensure that the head of the self-tapping screw is freely pulled through the remote sleeve and not get stuck in the LSK panel. For this, the inner diameter of the spacer sleeve is such that the head of the self-tapping screw with a crushed destructible element freely passes inside this sleeve. The distance sleeve is made of metal, since a rigid structure is necessary so that the head of the self-tapping screw does not deform the sleeve when pulling.

The length of the centering sleeve is chosen from such considerations: the centering sleeve should be of sufficient length on one side to securely fix the fasteners, and on the other hand short enough to not prevent the panel from dropping in an explosion. This is achieved when the centering sleeve is at least shorter than the distance sleeve.

Thanks to this design, nothing prevents the self-tapping of the self-tapping screw through the main thickness of the LSK panel, thus increasing the reliability of the structure when it is dropped and reducing the dependence of the critical load of dropping the structure on the parameters of the structure itself, including elimination of the dependence of the critical load of dropping on the thickness of the sheathing sheets of the LSK panel and the thickness of the LSK panel itself. Simplification of installation and increasing the reliability of the structure during the operation of the building is achieved by the fact that such a structure does not require weakening of the fastening elements compared to the prototype, so that temperature changes and wind loads do not affect the reliability of this structure during operation.

In our case, the centering sleeve is 1/4 of the width of the LSK panel, and the distance sleeve is 3/4 of the width of the LSK panel, respectively, which provides optimal design response parameters, but in general, other ratios can be used. Design parameters can be matched to various discharge loads.

Additionally, inside the spacer sleeve at the opposite end from the building frame, a centering element in the form of a caprolon sleeve is used, which serves to center the self-tapping screw inside the spacer sleeve. In the event of an explosion, this centering element is pulled through the spacer sleeve together with the head of the self-tapping screw.

The centering sleeve can be made of a polymeric material, usually caprolon, to protect the LSK panel in the fastening area from freezing. For other applications, the centering sleeve can be made of metal, for example, when used in fire barriers. The centering sleeve is made with an annular protrusion at the end to fix the sleeve relative to the through hole and prevents the self-tapping screw from shifting relative to the hole in the LCS panel.

The claimed technical solution is new, since the set of essential features is not known from the prior art, in addition, the claimed technical solution is not obvious to a person skilled in the relevant field of technology, since the above causal relationships are not trivial. The claimed technical solution is industrially applicable, as it can be reused in the construction of buildings and structures with obtaining the claimed technical results.

The claimed technical solution is shown in Fig. one.

The easily removable enclosing structure for hazardous areas contains a wall LSK panel 1, which is connected to the frame of the building 2 by means of a destructible fastener assembly, consisting of a self-tapping screw 3 inserted into the through hole of the LSK panel 1. From the outside of the wall fence there is a destruction element 6 with a corresponding reinforcing washer 7, which are fixed with the head of a self-tapping screw 8, pressing the easy-to-remove panel 1 to the frame of the building 2. The destructible element 6 is made in the form of a metal or lastikovoy washer with calibrated parameters and mounted to the reinforcing washer 7 serves to transmit the load from the panel to the LCS node erodible. Destructible element 6 with a reinforcing washer 7 is made by analogy with the prototype, but without loosening.

In the through hole of the LSK panel 1, a centering sleeve 4 is arranged in series, mounted on the side of the building frame 2 and the distance sleeve 5 to the remaining thickness of the LSK panel 1, made of metal. The inner diameter of the spacer sleeve 5 is such that the head of the self-tapping screw 8 with a crushed destructible element 6 freely passes inside this spacer, and the length of the centering sleeve 4 is less than the length of the spacer 5.

The centering sleeve 4 is made shorter than the distance sleeve 5. In our case, the centering sleeve 4 is 1/4 of the thickness of the LCS panel, and the distance sleeve 5 is 3/4 of the thickness of the panel, respectively, which provides optimal design response parameters, but in general there may be other ratios (including for panels with other parameters). Design parameters can be matched to various discharge loads.

Destructible mount includes an additional centering element 9 located inside the spacer sleeve 5 at the opposite end from the frame of the building 2, which serves to center the self-tapping screw 3 inside the spacer sleeve 5. The additional centering element 9 is made in the form of a caprolon sleeve. The centering element 9 is fixed to the self-tapping screw 3 by means of a threaded connection.

The centering sleeve 4 may be made of a polymeric material or metal, depending on the purpose of the design. The centering sleeve 4 may be made of a polymeric material (caprolon) to protect the LSK panel in the area of attachment from freezing. The centering sleeve can be made of metal when used in fire barriers. The centering sleeve 4 is made with an annular protrusion at the end to fix the sleeve relative to the through hole and to prevent the self-tapping screw 3 from moving relative to the hole in the LCS panel.

The structure is mounted as follows. Before ascending to the installation site in LSC, panel 1 is drilled through holes for destructible fasteners, as well as for screws for safety cables (not shown in the figure). The through hole should be strictly perpendicular to the surface of the panel. Next, install the screws with safety cables, raise the LSK panel to the installation site. A centering sleeve 4 and a distance sleeve 5 are installed in the through hole (in some cases it is possible to install before lifting). The bushings do not stick together and do not fasten together and with a through hole. Further, the LSK panel 1 through the corresponding bushings is attached to the frame of the building 2 with a self-tapping screw 3 with a destructible element 6 and a reinforcing washer 7. In addition, a centering element 9, made in the form of a caprolon sleeve, is inserted into the remote sleeve 5 together with a self-tapping screw 3, which serves to center the self-tapping screw 3. LSK panel 1 is fixed with safety ropes (not shown in the figure) to the frame of building 2 to prevent the structure from expanding when the panel is displaced from the explosion. The minimum number of safety cables is 2 pcs. on each LSK panel. In addition, as a standard for waterproofing, all fasteners are closed with shaped elements 10 with the corresponding screw 11. LSK panels are joined to each other by means of mounting seams with vapor-insulating and heat-insulating materials, closed with waterproofing tapes. Between the frame of the building 2 and LSC panel 1, a sealant 12 is installed. The LSC panel in the general case can be made in the form of a sandwich panel, in the form of a section of the building barrier, in the form of a wall cassette. In our case, a wall sandwich panel is mainly used.

The design works as follows. When the pressure in the room increases as a result of the explosion, the LSK panel puts pressure on the destructible element 6, through which the self-tapping screw 3 is fixed, respectively, the head of the self-tapping screw 8 crushes the destructible element 6 of the fastener, and together with the crushed destructible element 6 inside the spacer 5. So as the head of the self-tapping screw 8 passes freely inside the spacer sleeve 5, the self-tapping screw 3 (together with the crumpled destructible element 6 and the centering element 9) freely pulls through the spacer sleeve 5 and does not get stuck in the LSC panel 1, and the LSC panel 1 is discarded from the centering sleeve 4 and the self-tapping screw 3. Thus, the destructible fastener assembly loses additional fixation and collapses, and the LSC panel is thrown out and hangs on safety ropes.

Destructible element can be matched to the required actuation load, depending on the dimensions of the easily erasable enclosing structure and the necessary actuation pressure. Design parameters can be matched to various drop loads.

The proposed utility model increases the reliability of the structure during the operation of the building, increases the reliability of the structure when the panel is dropped, and reduces the dependence of the critical load of the structure drop on the parameters of the structure itself.

Claims (5)

1. Easily erasable enclosing structure for hazardous areas contains a wall erasable panel that is connected to the frame of the building by means of a destructible fastener, consisting of a self-tapping screw inserted into the through hole of the erasable panel, and located on the outside of the wall of the destructible element with a corresponding reinforcing washer, which fixed with the head of a self-tapping screw, pressing an easily erasable panel to the building frame, characterized in that the well this hole sequentially contains a centering sleeve located on the side of the building frame, which serves to center the self-tapping screw inside the through hole, and a distance sleeve to the remaining thickness of the easy-to-remove panel made of metal, the inner diameter of the distance sleeve being made so that the head of the self-tapping screw together with the crushed collapsible the element passed freely inside this sleeve, and the length of the centering sleeve is less than the length of the distance sleeve. 2. Easily erasable enclosing structure for hazardous areas according to claim 1, characterized in that the centering sleeve is 1/4 of the width of the easily erasable panel, and the distance sleeve is 3/4 of the width of the erasable panel, respectively. 3. Easily erasable enclosing structure for hazardous areas according to claim 1, characterized in that a centering element in the form of a caprolon sleeve is located inside the distance sleeve at the opposite end from the building frame, which serves to center the self-tapping screw inside the distance sleeve. 4. Easily removable enclosing structure for hazardous areas according to claim 1, characterized in that the centering sleeve can be made of a polymer material to protect the structure from freezing. 5. Easily erasable enclosing structure for hazardous areas according to claim 1, characterized in that the centering sleeve is made of metal when using the structure in fire barriers.

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