RU2642745C1 - Wall panel with installed window block - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: wall panel with an installed window block comprises a base with a slab with an outer face and an inner face that are made larger in size compared to other slab faces, first two vertical ribs, two second vertical ribs, two larger horizontal ribs, two smaller horizontal ribs, a window opening, as well as a window block, an inner insulating layer, an outer insulating layer, first heat-insulating layers, a second heat-insulating layer, third heat-insulating layers, fourth heat-insulating layers, fifth heat-insulating layers, a protective layer, U-shaped elements with a crossbar, two first fastening elements, second fastening elements, an inner slope, an outer slope. The window opening is located between the smaller horizontal ribs and the second vertical ribs. The first heat-insulating layers are located between the larger horizontal ribs, the first vertical ribs, the second vertical ribs and the smaller horizontal ribs. Besides the window opening, flush with said ribs, from the side of said ribs and the first heat-insulating layers, opposite to the slab, a second heat-insulation layer adjacent thereto is located. The U-shaped elements are installed along the vertical ribs and attached to them by means of the second fastening elements. Each third heat-insulating layer is located between the U-shaped element and the part of the second heat-insulating layer, corresponding to it. The crossbar is located on the side of the third heat-insulating layer opposite to the slab, the second fastening elements being attached to the crossbar and passing through the corresponding third heat-insulating layer. The window block is fastened with a gap in the window opening by means of the first fastening elements with filling the gaps with the fifth heat-insulating layer closed from the inner face by the inner insulating layer, and from the opposite side - by the outer insulating layer. A fourth heat-insulating layer adjacent to the outer insulation layer and separated by it from the second heat-insulating layer is located between the window block and the third heat-insulating layer. The outer slope is connected to the window block and the nearest U-shaped element. The protective layer is arranged on the side of the U-shaped element, opposite to the slab, and is attached thereto with providing the protection of the second heat-insulating layer from destructive environment factors. The inner slope is located on the inner insulating layer with an overlap.

EFFECT: increasing the thermal insulation level of the wall panel with the installed window block.

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Description

Technical field

The invention relates to the field of construction, in particular to wall panels for the construction of buildings for various purposes.

State of the art

In the field of ground construction, in the construction of various buildings, for example, residential, to simplify installation at a construction site, multilayer wall panels are used. Basically, such panels consist of layers of concrete or reinforced concrete and thermal insulation. The layers of thermal insulation and reinforced concrete are produced in the factory. Also, in the factory, window blocks are fixed in the panels (according to clause 7.1.2 of GOST 31310-2005 "Three-layer reinforced concrete wall panels with effective insulation. General specifications" the panels should be delivered with installed, i.e. fixed, window blocks).

The closest technical solution (prototype) is a concrete wall with external insulation and an installed window block (Figure A.8 GOST 30971-2002 "Assembly joints of adjoining window blocks to wall openings. General technical conditions"). The design consists of a flat concrete wall, which is covered on the outside with an even layer of heat-insulating material. In the provided window opening, the window block is fixed by means of a fastening element, one end of which is located inside the concrete wall. The gap between the concrete wall and the window block is filled with foam insulation. Foam insulation on the inside is covered with a vapor barrier tape and an element of decoration. From the outside - waterproofing vapor-permeable tape and the above-mentioned layer of heat-insulating material, protruding beyond the boundary of the concrete wall. Outside, trim elements are also present. Fixing the window block and thermal insulation of the gaps in the factory allows for better installation of the window block in the opening and simplify the installation of the building at the construction site.

A disadvantage of the known technical solution is the low level of thermal insulation of the wall panel with the installed window unit. The reasons for this are the presence of an empty space between the outer heat-insulating layer and the foam insulation layer, in which air convection flows are formed, which contributes to the increase in heat conductivity and, accordingly, the level of heat loss, the gradual destruction of thermal insulation due to the absence of a protective layer when exposed to precipitation, sun, wind, mechanical stress .

The technical result of the invention is to increase the level of thermal insulation of a wall panel with an installed window unit. This is ensured by improving its design, which activates the following factors: reduction of heat loss due to the presence of an additional heat-insulating layer that adheres to the heat-insulating layer between the window block and the borders of the window opening and thereby prevents the formation of an additional air gap between it and the subsequent layer air flow and thermal conductivity; the presence of a protective layer that prevents the action on the heat-insulating layers of most of the destructive factors (for example, precipitation, wind, sun, mechanical stress) and a decrease in their heat-insulating properties.

The specified technical result is achieved due to the fact that in the wall panel with the installed window block containing a base with a plate with an outer side and an inner side, which are larger than the other faces of the plate, two first vertical edges, two second vertical edges, two large horizontal ribs, two small horizontal ribs, a window opening, as well as a window unit, an inner insulating layer, an outer insulating layer, the first heat-insulating layers, the second heat-insulating layer, third heat-insulating layers, fourth heat-insulating layers, fifth heat-insulating layers, protective layer, U-shaped elements with a crossbeam, two first fasteners, second fasteners, internal slope, external slope, with the first two vertical ribs, two second vertical ribs , two large horizontal ribs and two small horizontal ribs are located on the outer face, made integral with the slab and made, like the slab, with the predominant content of concrete, the first are vertical the ribs are arranged in relation to each other in parallel and on opposite sides of the plate, the large horizontal ribs are located in relation to each other in parallel and on opposite sides of the plate between the first vertical ribs, the second vertical ribs are located from one large horizontal rib to another large horizontal rib, parallel relative to each other and to the first vertical edges, small horizontal edges are located from one second vertical edge to another second vertical of a rib, parallel to each other and to large horizontal ribs, the window opening is located between the small horizontal ribs and the second vertical ribs, the first heat-insulating layers are located between the large horizontal ribs, the first vertical ribs, the second vertical ribs and small horizontal ribs except the window an aperture flush with the indicated ribs, on the side of the specified ribs and the first heat-insulating layers, opposite the plate, there is a second heat-insulating layer adjacent to them, U-shaped elements are installed along the first vertical edges and second vertical edges and attached to them by means of second fastening elements, every third heat-insulating layer is located between its corresponding U-shaped element and part of the second heat-insulating layer, and the crossbar is located on the side a third heat-insulating layer opposite the plate, while the second fastening elements are attached to the crossbar and pass through the corresponding third heat-insulating layer of windows the second block is fixed with a gap in the window opening by means of the first fasteners with filling the gaps with a fifth heat-insulating layer closed by an inner insulating layer on the inner side and an outer insulating layer on the opposite side, and a fourth heat-insulating layer is placed between the window block and the third heat-insulating layer a layer adjacent to the outer insulating layer and separated by it from the second heat-insulating layer, the outer slope is connected to the window block and the nearest U-shaped ele entom, a protective layer was placed on the part of the U-shaped member opposite the plate, and is attached thereto with protection of the second insulation layer from damaging environmental factors, and an inner slope is located on the inner insulating layer with an overlap.

Brief Description of the Drawings

The invention is illustrated by drawings (Figs. 1-2), where Fig. 1 shows a general view of an installed window unit, and Fig. 2 shows a horizontal section of a mounting unit of a window unit (window unit and aspect ratio are shown conditionally in the figures).

Disclosure of invention

The drawings indicate: base 1, plate 2, outer face 3, inner face 4, large horizontal rib 5, small horizontal rib 6, lateral horizontal edge 7, outer edge 8, lateral vertical edge 9, window opening 10, window block 11, the first vertical rib 12, the second vertical rib 13, the first fastener 14, the inner insulating layer 15, the inner slope 16, the contact face 17, the first heat-insulating layer 18, the second heat-insulating layer 19, the third heat-insulating layer 20, the protective layer 21, U-shaped element 22 in Ora fastening element 23, the fourth insulating layer 24, the outer insulating layer 25, the outer slope 26, a fifth insulating layer 27.

The main elements of the device are the base 1, the window unit 11, the first heat-insulating layer 18, the second heat-insulating layer 19, the third heat-insulating layer 20, the U-shaped element 22, the protective layer 21.

The base 1 is a single structure consisting of a plate 2, two first vertical edges 12, two second vertical edges 13, two large horizontal edges 5, two small horizontal edges 6. There may be other elements. All elements of the base 1 are made of a material with a predominant content of concrete (various types of concrete are known from the prior art according to GOST 25192-2012 Concretes. Classification and general technical requirements), for example concrete or reinforced concrete.

Plate 2 is a parallelepiped, two linear dimensions of which are significantly larger than the third linear size. Plate 2 is provided with the two largest faces (surfaces) - the inner face 4 and the outer face 3. The remaining faces of the plate 2 are lateral vertical faces 9 and lateral horizontal faces 10. The names of the faces are given taking into account the standard use of the wall panel and the corresponding location of the base 1 (wall panel during the installation of the building, it is installed in such a way that the inner face 4 faces the inside of the building, and the outer face 3 faces the outside). In addition, the plate 2 has a rectangular through hole on the side of the outer face 3 and the inner face 4.

Each edge of the first vertical edges 12, second vertical edges 13, large horizontal edges 5, small horizontal edges 6 (hereinafter referred to as edges together for simplicity) is a parallelepiped or polyhedron in which other than vertical or horizontal elements are made, in particular, with deviation from their position in the case of a box. Moreover, the two transverse dimensions of this box are smaller than the third longitudinal size. In addition, the transverse dimensions of all edges can be equal. In this case, different edges differ only in longitudinal linear size and location.

All these ribs are located on the side of the outer face 3 of the plate 2. With the outer face 3 of the plate 2, each of the ribs is in contact along its long side. Such a face of any edge with which it contacts the outer surface 3 of the plate 2 is called in the text a contact face 17. For all edges, the faces parallel to the contact faces 17 lie in the same plane. In addition, for each of the first vertical edges 12 and large horizontal edges 5, one of the faces (which are perpendicular to the contact face) with the largest linear size lies with the lateral horizontal faces 7 and the lateral vertical faces 9 of the plate 2 in one plane. Such faces (indicated in the previous sentence) of the first vertical edges 12 and large horizontal edges 5 are external faces 8. The external faces 8 of the first vertical edges 12 lie in the same plane with the side vertical faces of the plate 9, the external faces 8 of the large horizontal edges 5 lie in one plane with lateral horizontal edges 7 of plate 2. Thus, the first vertical edges 12 and large horizontal edges 5 are located on the edges of the outer edge 3 of plate 2, forming a closed loop. The second vertical edges 13 are located between the first vertical edges 12, parallel to them (meaning the parallelism of the largest linear dimensions of the edges) and at a distance from them and from each other. Small horizontal ribs 6 are located between large horizontal ribs 5, parallel to and at a distance from them and from each other, and also between the second vertical ribs 13. Moreover, the length of the small horizontal ribs 6 is equal to the distance between the second vertical ribs 13. The distance between the second vertical ribs 13 and the distance between the small horizontal edges 6, respectively, are equal to the horizontal and vertical sizes of the rectangular section of the through hole in the plate (section in the plane parallel to the outer overhnosti plate). Thus, the second vertical ribs 13, the small horizontal ribs 6 and the through hole in the plate form a window opening 10. In addition, intermediate vertical ribs can be parallel between the adjacent first vertical rib 12 and the second vertical rib 13.

The window block 11 is located in the window opening 10 with a gap. The window block 11 is a translucent structure designed for natural lighting of the room, its ventilation and protection against atmospheric and noise influences. Window unit 11 consists of the following assembly units: boxes and swing elements, built-in ventilation systems and may include a number of additional elements, for example, blinds, shutters, etc. (in accordance with Appendix A GOST 23166-99 "Window units. General specifications "). The holding of the window unit 11 in the required position in the window opening 10 is carried out using the first fastening elements 14. As the first fastening elements 14, for example, anchor plates or expansion frame dowels (in accordance with Figure G.1 GOST 30971-2012 " Assembly joints of adjoining window blocks to wall openings. General specifications "). One end of the first fastener 14 is connected to the window unit 11 by means of a threaded fastener. The other end of the first fastening element 14 is located in the base material 1. Moreover, the other end in the case of using anchor plates can be bent.

The first heat-insulating layer 18, the second heat-insulating layer 19 are layers of the same or different heat-insulating materials (for example, blocks of mineral wool or foam glass, rolled mineral wool). The shape of the first heat-insulating layer 18, the second heat-insulating layer 19 is close to the parallelepiped, two linear sizes of which are larger than the third linear size.

The first heat-insulating layer 18 is located in the space between adjacent vertical edges (for example, between the first vertical edge 12 and the second vertical edge 13) and between adjacent horizontal edges (except for a pair of two small horizontal edges 6 in the window opening 10). One of the largest surfaces of the first heat-insulating layer 18 is in contact with the outer face 3 of the plate 2. The other largest surface of the first heat-insulating layer 18 is located at the same or close distance from the outer edge 3 of the plate 2 as the edge of any rib that is farthest from the outer edge 3 plates 2.

The second heat-insulating layer 19 is in contact with its one largest surface with the edges of the ribs and the largest surface of the first heat-insulating layer 18, which are farthest from the outer edge 3 of the plate 2. Moreover, the largest dimensions of the second heat-insulating layer 19 coincide with the largest dimensions of the plate 2. Also, the second heat-insulating layer 19 has a through hole coinciding with the window opening 10, ensuring its use or installation of the window unit 11.

The third heat-insulating layer 20 is a layer of heat-insulating material (for example, blocks of mineral wool or foam glass). The shape of the third heat-insulating layer 20 is close to the parallelepiped, two linear dimensions of which are smaller than the third linear size. The largest size of the third heat-insulating layer 20 coincides with the vertical size of the plate 2. The third heat-insulating layer 20 is located along the corresponding vertical ribs. Each vertical rib corresponds to its third heat-insulating layer 20. The cross-sectional dimension of the third heat-insulating layer 20, parallel to the outer edge 3 of the plate 2, is larger than the cross-sectional size of any vertical rib (the cross-sectional dimension of the vertical rib is also parallel to the outer edge 3 of the plate 2) in the same direction . The third heat-insulating layer 20 in its largest surface is in contact with the largest surface of the second heat-insulating layer 19, and in the vicinity of the window opening 10, additionally with the surface of the fourth heat-insulating layer 24, which is opposite to the outer edge 3 of the plate 2.

The U-shaped element 22 is a metal profile having a U-shaped section and made, for example, of bent sheet metal. Moreover, the flat part of the U-shaped element 22, parallel to the outer edge 3 of the plate 2, is called the crossbar. The length of the U-shaped element 22 is equal to the vertical size of the plate 2 or close to it. The U-shaped element 22 covers the third heat-insulating layer 20 on the surfaces with the largest linear size, which do not come in contact with the second heat-insulating layer 19 (and with the fourth heat-insulating layer 24 if it is close to the window opening 10). The U-shaped element 22 is fixed in vertical ribs using the second fastening elements 23.

The second fastener 23 is a part for securing the U-shaped element 22. In general, the second fastener 23 may be a rod in shape. As the second fastening element 23, for example, threaded fasteners can be used. The second fastener 23 extends through the crossbeam (the flat part of the U-shaped element 22 parallel to the outer edge 3 of the plate 2), the third heat-insulating layer 20 and the second heat-insulating layer 19. A part of the second fastener 23 outside the above elements is located in the material of the corresponding vertical rib and may be located in the material of the plate 2, but does not pass through the plate.

The protective layer 21 is a set of panels for protecting the second heat-insulating layer 19 and the first heat-insulating layer 18 from the main part of the destructive factors. The thickness of the panels of the protective layer 21 is significantly less than two other sizes. The panels of the protective layer 21 can be made, for example, of granite. Each panel of the protective layer 21 is located in such a way that its largest surfaces are parallel to the outer face 3 of the plate 2. Each panel of the protective layer 21 is fixed to two adjacent U-shaped elements 22 with threaded fasteners. The horizontal size of each panel is less than the center distance between adjacent U-shaped elements 22, due to which there are gaps between adjacent panels of the protective layer 21 to compensate for thermal expansion.

The fifth heat-insulating layer 27 is a layer of heat-insulating material (for example, mounting foam). The fifth heat-insulating layer 27 is located in the gap between the window block 11 and the second vertical rib 13. Also, the fifth heat-insulating layer 27 can be located between the window block 11 and other borders of the window opening 10.

The inner insulating layer 15 is a thin flexible tape of insulating material (usually vapor barrier). The inner insulating layer 15 adjoins the base 1 with one part, and the fifth insulating layer 27 closes with the other. In general, the shape of the inner insulating layer 27 repeats the shape of the surfaces adjacent to it (corner).

The internal slope 16 is a protective and decorative element. The internal slope 16 can be made, for example, of drywall, polymers or plaster, and also have additional components (for example, additional insulation materials). The free surfaces of the internal slope 16 are usually made flat or close to flat and oriented so as not to impede the use of the window unit 11.

The outer insulating layer 25 is a thin flexible tape of insulating material (usually waterproof vapor permeable). The outer insulating layer 25 is in one part adjacent to the second insulating layer 19, and the other covers the fifth insulating layer 27. In general, the shape of the outer insulating layer 25 repeats the shape of the surfaces adjacent to it (corner).

The fourth heat-insulating layer 24 is a parallelepiped of heat-insulating material (the same as the second heat-insulating layer 19), one size of which is larger than the other two sizes. The fourth heat-insulating layer 24 with two adjacent surfaces with the largest size partially adjoins the outer insulating layer 25. The cross-sectional size of the fourth heat-insulating layer 24, which is adjacent through the outer insulating layer 25 to the second heat-insulating layer 19, is the smallest size of the second heat-insulating layer 19. Another size the cross section is slightly larger than the gap between the window unit 11 and the second vertical rib 13.

The outer slope 26 is a profile made of bent sheet material (for example, galvanized iron). An external slope 26 is fixed to the window unit 11 (namely, the box of the window unit 11) from the outside using threaded fasteners. The external slope 26 covers the fourth heat-insulating layer 24 and partially covers the U-shaped element 22. The profile shape is selected so as to completely cover the fourth heat-insulating layer 24 and protect it from destructive environmental factors.

The implementation of the invention

In the case of using the above elements and means, the invention is implemented as follows.

Pre-made mold for subsequent casting of the base 1 with the installed window unit 11. The mold is made taking into account the configuration of the base 1 above. Also, first fasteners 14 are preliminarily attached to the window unit 11 by means of threaded fasteners 14. Then, the window unit 11 with the first fasteners 14 connected is fixed in the mold for casting in the required position (indicated above), for example, using formwork. Additionally, other elements can be fixed in the mold for casting, for example, embedded elements for connecting wall panels to each other. Concrete mortar is poured into the mold for casting if the base 1 is made of concrete. If the base 1 is made of reinforced concrete in a mold for casting, steel reinforcement is preliminarily placed, and then concrete mortar is poured. After the concrete mortar hardens, the base 1 with the installed window unit 11 is removed from the casting mold and turned over into a vertical position.

Then the gap between the window unit 11 and the borders of the window opening 10 is filled with the fifth heat-insulating layer 27, for example, mounting foam.

In the space between adjacent vertical edges and adjacent horizontal edges (with the exception of the window opening 10), a first heat-insulating layer 18 is placed as described above. In the above position (on the outward facing surfaces of the first heat-insulating layer 18 and the edges of the ribs), a second heat-insulating layer 19 is placed.

The gap between the window block 11 and the borders of the window opening 10, filled with the fifth heat-insulating layer 27, is closed from the outside by an outer insulating layer 25, for example, waterproofing vapor-permeable tape. The outer insulating layer 25 is positioned as described above. Then, the fourth heat-insulating layer 24 is placed in the above position. As a result, the outer insulating layer 25 is placed between the second heat-insulating layer 19, the fourth heat-insulating layer 24 and the fifth heat-insulating layer 27. Elements 24, 25, 26 are installed on the wall panel already after its manufacture in formwork and tilting upright.

The outer surfaces of the second heat-insulating layer 19 and the fourth heat-insulating layer 24 form a nearly flat surface. A third heat-insulating layer 20 is arranged on this surface along each vertical rib, as described above. On each third heat-insulating layer 20, a U-shaped element 22 is placed, which is fixed in the base 1 by means of second fastening elements 23, for example, threaded fasteners. In addition to the U-shaped element 22, the second fastening elements 23 hold the second heat-insulating layer 19 and the third heat-insulating layer 20 in the required position. The first heat-insulating layer 18 and the fourth heat-insulating layer 24 are held in position by pressing, respectively, the second heat-insulating layer 19 and the third heat-insulating layer 20 .

Then, to protect the fourth heat-insulating layer 24, an outer slope 26 is fixed on the box of the window unit 11 using, for example, threaded fasteners.

Then the wall panel is transported and mounted in place. After that, to protect the second heat-insulating layer 19 on the U-shaped element 22 using, for example, threaded fasteners fix the protective layer 21.

The gap between the window block 11 and the borders of the window opening 10, filled with the fifth heat-insulating layer 27, is closed from the inside by an internal insulating layer 15, for example, vapor barrier tape. The inner insulating layer 15 is positioned as described above. Then, an internal slope 16 is made or mounted, for example, in the case of an internal slope 16, a layer (several layers) of the corresponding material is applied from the plaster and completely dried.

A wall panel with an installed window unit is used in panel house building as the walls (usually exterior) of a building to speed up the construction process. The wall panel with the installed window unit is usually oriented in such a way that the inner face 4 of the plate 2 is oriented inside the building, and the protective layer 21 is oriented outward. Wall panels are connected to each other and to floor slabs, for example, by welding pre-installed contact pads (metal embedded elements). In this case, the base 1, made mainly of concrete, when heating the building in the cold period, is constantly in the zone of positive temperatures and protected from destructive natural factors. Protection of the insulation layers is provided by the presence of a protective layer 21, a U-shaped element 22 and an external slope 26.

Thus, the presence in the wall panel with the installed window unit of several heat-insulating layers and a protective layer 21 provides an increase in the level of thermal insulation. This is ensured by the following factors. The fourth heat-insulating layer 24 is adjacent (through the outer insulation layer 25) to the fifth heat-insulating layer 27 between the window block 11 and the borders of the window opening 10 and thereby prevents the formation of an additional air gap between it and the subsequent layer, the formation of air flows and increased thermal conductivity, which reduces the level of heat loss through the mounting unit of the window unit 11. The protective layer 21 fixed on the U-shaped element 22 prevents the action on the heat-insulating layers of the main part azrushayuschih factors (e.g., precipitation, wind, sunlight, mechanical impact), and consequently, a decrease in their thermal insulation properties.

Claims (1)

A wall panel with an installed window unit, containing a base with a slab with an outer face and an inner face, which are larger than the other faces of the slab, two first vertical edges, two second vertical edges, two large horizontal edges, two small horizontal edges, a window the opening, as well as the window block, the inner insulating layer, the outer insulating layer, the first heat-insulating layers, the second heat-insulating layer, the third heat-insulating layers, four heat-insulating layers, fifth heat-insulating layers, a protective layer, U-shaped elements with a crossbeam, two first fasteners, second fasteners, an internal slope, an external slope, with the first two vertical ribs, two second vertical ribs, two large horizontal ribs and two small horizontal ribs are located on the outer edge, made at the same time with the slab and made, like the slab, with a predominant content of concrete, the first vertical ribs are parallel to each other and with of the opposite sides of the plate, large horizontal edges are parallel to each other and on opposite sides of the plate between the first vertical edges, second vertical edges are from one large horizontal edge to another large horizontal edge, parallel to each other and to the first vertical edges , small horizontal ribs are located from one second vertical rib to another second vertical rib, parallel to each other and to large to the horizontal edges, the window opening is located between the small horizontal edges and the second vertical edges, the first heat-insulating layers are located between the large horizontal edges, the first vertical edges, the second vertical edges and small horizontal edges, except for the window opening, flush with the specified edges, and from the sides of the indicated edges the first heat-insulating layers, opposite the plate, is the second heat-insulating layer adjacent to them, U-shaped elements are installed along the first x vertical ribs and second vertical ribs and attached to them by means of second fastening elements, every third heat-insulating layer is located between its corresponding U-shaped element and part of the second heat-insulating layer, and the crossbar is located on the side of the third heat-insulating layer, opposite the plate, while the second fastening the elements are attached to the crossbar and pass through the corresponding third heat-insulating layer, the window block is fixed with a gap in the window opening by means of the first fasteners with filling the gaps with a fifth heat-insulating layer, closed with an inner insulating layer on the inner side, and with an outer insulating layer on the opposite side; in addition, a fourth heat-insulating layer is placed between the window block and the third heat-insulating layer, adjacent to and separated by an external insulating layer from the second heat-insulating layer, the outer slope is connected to the window block and the nearest U-shaped element, the protective layer is placed on the side of the U-shaped element, p opposite the plate, and attached to it to ensure the protection of the second heat-insulating layer from the destructive factors of the external environment, and the internal slope is located on the inner insulating layer with an inlet.

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