RU134963U1 - BRICK (OPTIONS) - Google Patents

Abstract

1. A brick, which is a rectangular parallelepiped in shape with spoon, poke and bed faces, in the body of which there are holes located along the spoon face and facing upwards with voids, and on one of the pushing edges there is a recess directed along this side and parallel to the direction of voids in the body of the parallelepiped and made with the possibility of formation when laying together with the bonded face of the adjacent brick an additional vertical hole, characterized in that on the other bonded a recess has been made, directed along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of forming an additional vertical hole when laying together with the bonded face of the adjacent brick in the central part of the parallelepiped, one through hole located at the same distance from the bonded faces and in shape repeating the shape of the hole obtained by attaching to it the bonded face of the adjacent brick, and between the through hole in the central the second part, the width of which is equal to the width of the recesses, and the recesses on the bonded faces are formed through holes in the form of slots or pores with dimensions along the direction of the spoon face smaller than the size of the through hole in the central part, measured in the same direction, while the depth of the grooves on the bonded faces are identical and their sum of depths is less than the size of the through hole in the central part, measured along the spoon face, by the value of the vertical seam of the masonry mortar. 2. Brick according to claim 1, characterized in that on one

Description

The utility model relates to the field of construction, namely to the construction of building blocks or bricks, and can be used in the construction or cladding of external load-bearing walls of buildings and structures.

In the framework of this utility model, we consider the construction of a brick or building block designed for in-line spoon vertical laying in half a brick of a wall with vertical and horizontal seams based on mortar with ½ brick of the lower row overlapping in horizontal and vertical joints with metal or composite reinforcement, which can bind together which can significantly increase the strength and performance properties of such a masonry.

Brick or building block can be in-line, front, facing.

In-line brick or building block serves for the construction of load-bearing walls with subsequent plaster or without it. In this case, it is both full-bodied and hollow. Front brick is mainly used for finishing works and can have both smooth and specially processed surface to achieve a given decorative effect. This does not mean that such a brick is notable for its low mechanical strength, but to put a box of a house out of purely front brick is an inadmissible luxury.

The front building block serves for the simultaneous erection of load-bearing walls and the formation of the front decorative surface for subsequent painting or immediately specified color, which is endowed with such a block directly in the production process.

In-line brick or building block may have a relief or pattern on the side wall. The relief or pattern can be both functional, for example, for better adhesion to the plaster, and decorative. In contrast to silicate brick, ceramic has little water absorption. However, its cost is significantly higher, which to some extent limits its use. All of the following types of bricks or building blocks, which will be given below, to one degree or another are categories of ceramic, silicate, pressed (hyper-pressed) bricks based on a cement mixture or building blocks based on a cement mixture with various special fillers (e.g. expanded clay, wood chips or shavings, perlite sand, vermiculite, etc.) or without them.

Front brick (sometimes called facade or facing) or a building block, as a rule, is hollow for better thermal insulation and lightening the total weight of the external walls in order to reduce the pressure on the foundation. The front brick or building block in most cases has a uniform color, the correct geometry and can have on the side a pattern or decorative relief or a special coating (water-repellent, heat-reflecting, etc.) created by any known suitable method. The front brick or building block is distinguished by a high variety of colors and shades. As a rule, this is a warm, generally accepted brick gamut. If the outer side of the front brick or building block does not have a picture or decor by definition, then it differs from other types of brick / building block with a smooth, ideally smooth surface.

According to the design, the brick or building block in-line, front or facing may coincide, differing in purpose and material of which it is made. A feature of this brick or building block is the presence of voids in it, which during masonry form vertically formed voids including those of equal geometric shape, which, on the one hand, can be considered as channels for laying engineering structures (for example, cables) or for strengthening masonry by vertical reinforcement of the masonry by placing in the vertical masonry channels formed by the voids of the reinforcement and the subsequent filling of such a channel with masonry mortar or salable EtOH, and on the other hand, voids break cold bridges and may have to increase the effect further thermal liners.

Known brick according to KR 20080078309, E04B 2/02, E04B 2/30, E04C 1/00 publ. 03/22/2010 (adopted as a prototype), which is a parallelepiped-shaped building block in which three recesses are made along the spoon face, two directly in the block body, and the third on the bonded face, the other bonded face is flat. Brick is used as in-line or front. Moreover, all openings in the plan have different sizes. The peculiarity of this brick is that it must be turned over each time when laying the subsequent brick 180 ° relative to the horizontal plane to form a through void when combining the jagged faces of two bricks, where there are recesses, and, accordingly, the jagged faces that do not have a notch, also in the joint to each other. In this case, when laying two bricks according to the prototype, only three through voids are formed. Moreover, these voids are of different sizes. In a well-known brick, only one hole (central) is used to form a channel that can be used to lay an engineering structure (fittings, wires, insulation, etc.), the remaining holes are made to lighten the weight of the brick and masonry as a whole. As a main disadvantage of the prototype, it has a structural solution that has a fixed one poke face in the form of a solid brick plane, which limits the number of through vertical voids formed in the masonry row of the same geometric shape. This in turn makes it significant and limits the possible length of the distance between the vertical reinforcement of the masonry using reinforcement. Insufficient optimization of the voidness in the brick leads to its limited and low performance, expressed in the complexity of the masonry due to the need to turn over each subsequent brick to be laid, to the loss of heat-shielding qualities due to the formation of significant direct cold bridges unevenly distributed over the masonry area, which allow significant heat flux , the impossibility of organizing through vertical channels of equal geometric shape in cross section inside such a masonry, etc.

This utility model is aimed at achieving a technical result consisting in improving the operational properties of a brick or building block by properly organizing the voids in the brick or block body to form through channels through the voids during masonry and (in versions) preserving other voids to lighten the weight of the brick or block and increasing the heat flow path.

The specified technical result is achieved in that in a brick or block, which is a rectangular parallelepiped in shape with spoon, pin and bed faces, in the body of which there are holes located along the spoon side and facing upwards with hollows and a notch directed on one of the button faces along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of formation during laying together with the bonded face of the adjacent brick an additional vert a hole, on the other bonded face, a recess is made, directed along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of forming an additional vertical hole in the central part of the parallelepiped when laying together with the bonded face of the adjacent brick, located at the same distance from the bonding faces and in shape repeating the shape of the hole obtained when the bonded edge of the adjacent brick is attached to it cha, and between the through hole in the central part and the recesses on the bonded faces, through holes are formed in the form of slots or pores with dimensions along the direction of the spoon face smaller than the size of the through hole in the central part, measured in the same direction, while the depths of the grooves on the bonded faces are made the same and their sum of depths is less than the size of the through hole in the central part, measured along the spoon face, by the size of the vertical seam of the masonry mortar.

The specified technical result is also achieved by the fact that in the brick or block, which is a rectangular parallelepiped in shape with spoon, pin and bed faces, in the body of which holes are made located along the spoon side and turned upwards with voids and a notch is made on one of the button faces directed along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of formation during masonry together with the bonded face of an adjacent brick about a vertical hole, on the other bonded face there is a recess directed along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of forming an additional vertical hole in the central part of the parallelepiped when laying together with the bonded face of the adjacent brick, one through hole , in shape repeating the shape of the hole obtained when the bonded face of the adjacent brick is attached to it, and between the through hole in the central part and in Through holes in the bonded faces are formed through holes in the form of slots or pores with dimensions along the direction of the spoon face smaller than the size of the through hole in the central part, measured in the same direction, the notches on the bonded faces are made of different depths and the sum of their depths is less than the size of the through hole in the central part , measured along the spoon face, by the value of the vertical seam of the masonry mortar, while the through hole in the central part is located at the same distance from the walls of the recesses nnyh along bonder faces.

The specified technical result is also achieved by the fact that in the brick or block, which is a rectangular parallelepiped in shape with spoon, pin and bed faces, in the body of which holes are made located along the spoon side and turned upwards with voids and a notch is made on one of the button faces directed along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of formation, when laying together with a flat bonded face of an adjacent brick, of a vertical hole, in the body of the parallelepiped in its central part, there is one through hole that is similar in shape to the shape of the hole obtained when a bonded edge of an adjacent brick is attached to it, and through holes are formed between the through hole in the central part and the recesses on the bonded faces or pores with dimensions along the direction of the spoon face smaller than the size of the through hole in the Central part, measured in the same direction, while the notch on the bonded face is made Lubin, smaller size of the through hole in the central part measured along the stretcher faces, the magnitude of the vertical seam masonry mortar, and the through hole in the central portion is disposed equidistant between groove binder on one face and the other face of the binder.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present invention is illustrated by specific examples of execution, which, however, are not the only possible, but clearly demonstrate the ability to achieve the desired technical result.

In FIG. 1 shows a first embodiment of a brick;

FIG. 2 - shows a second embodiment of a brick;

FIG. 3 - shows a third embodiment of a brick;

FIG. 4 - shows a first example of a brick;

FIG. 5 is a second example of a brick;

FIG. 6 is a third example of a brick;

FIG. 7 - the fourth embodiment of the brick;

FIG. 8 - the fifth embodiment of the brick;

FIG. 9 is an example of the arrangement of bricks in FIG. 7;

FIG. 10 is a fifth example of a brick;

FIG. 11 is a sixth example of a brick;

FIG. 12 is an example of a fragment of a row brickwork of FIG. 7;

FIG. 13 is an example of in-line brickwork of FIG. 7.

According to this utility model, the construction of a new brick or building block is considered which is laid sequentially one by one in a row without turning over in the same way as the very first brick or block was laid, i.e. the left and right sides of the brick or block are observed when laying in a row. With this masonry, through voids are formed through the same fixed distance, and (unlike the prototype) three whole vertical through voids of the same geometric shape and another notch on the left and on the right are formed in a row of masonry from two new bricks or blocks, which actually create a fourth through hole void taking into account the addition of one vertical masonry seam on the left or on the right.

A brick or block according to all variants and examples of execution is a rectangular parallelepiped in shape with spoon 1, pin 2 and bed 3 faces. In the body of the brick or block, holes are made located along the spoon face and facing upwards with voids. In this case, a recess 4 is made on one or two bonded faces in a brick or block, directed along this face and parallel to the direction of voids in the parallelepiped body. This recess is made on the bonded edge and is used to form, when laying together with the bonded edge of an adjacent brick or block, an additional vertical hole 5 (Figs. 9 and 13).

In the body of the parallelepiped in its central part, there is one central through hole 6 located at the same distance from the butt faces or from the walls 7 of the recesses, which are parallel or located along the surface of the butt face 2. This central through hole 6 repeats the shape of the hole 5 in plan view obtained by attaching to the bonded face of the bonded portion of an adjacent brick. The width of the through hole in the central part is equal to the width of the recesses on the bonding faces.

Between the through hole 6 in the central part of the brick or block body and the recesses 4 on the bump faces, through holes 8 are formed in the form of slots or pores with dimensions measured along the direction of the spoon face smaller than the size of the through hole 6 in the central part measured in the same direction. These slots and pores are made in order to facilitate the brick and to form complex paths of heat flow across the brick or block. This reduces the thermal conductivity of the brick or block and masonry of them.

The location of through voids - holes 8 of the type of slots and pores that do not form vertical channels of equal geometric cross section in the masonry, occurs around the central through hole 6 (voids) based on GOST standards for voids in blocks or bricks. The geometric shape of the central through hole 6 (void) forming a vertical channel may be in the form of a rectangle, polyhedron, circle or oval. The geometric shape of the internal through voids such as pores and slots located in the brick to further facilitate and reduce thermal conductivity, are formed around the central through hole 6 and may be in the form of a rectangle, polyhedron, circle or oval. The geometric shape of the recesses 4 repeats the shape of the through hole 6 and may be in the form of a rectangle, polyhedron, circle (Fig. 11) or oval.

In the brick or block, then brick, according to the first embodiment (Fig. 1), the recesses are made on both bonded faces. A recess on each bonded face is directed along this face and parallel to the direction of voids in the parallelepiped body and is configured to form an additional vertical hole when laying together with the bonded face of an adjacent brick. In this embodiment, the depths of the recesses on the bonded faces are the same and the sum of their depths is less than the size of the through hole in the central part, measured along the spoon face, by the size of the vertical seam of the masonry mortar.

The optimization of the sizes and locations of the central through hole and recesses is based on two formulas.

According to the first formula, the length of the inner through void (through hole) is determined: a = b1 + b2 + c, where

a is the length of the inner void measured along the spoon face E1E2 along an imaginary plane passing in the middle;

b1 is the depth of the excavation on one side of the bonding edge of the brick;

b2 is the depth of the notch on the opposite side of the bonded edge of the brick;

c is the width of the vertical seam of the mortar in the masonry.

When the bricks are joined by jabbing edges, a layer of mortar, called a seam, is introduced between the latter. Typically for masonry, such a seam has a thickness of 8-15 mm (usually 9-12 mm). In fact, the thickness of the seam for a brick or building block is a constant, that is, an unchanged value. Regardless of the size of the building block, the joint is used in a standard size, that is, in the range of 8-15 mm (article "Types of masonry", posted on the Internet in online access at: http://works.tarefer.ru/ 82/100076 / index.html). Thus, in relation to the masonry, we can say that one brick is located from another brick at a distance equal to the size of the seam “c”.

The geometric center of the inner through void (central hole 6), having a length a, is determined as the distance to the inner edge of any recess on the bonded side of the brick according to the formula: k = (l-b1-b2) / 2, where

l is the length of the brick, measured along the spoon face of the brick;

b1 is the depth of the excavation on one side of the bonding edge of the brick;

b2 - the depth of the excavation on the opposite side of the bonded edge of the brick.

The width of the recesses on both bonder faces is equal to the width of the central through void forming a vertical channel in the masonry with lower bricks.

With this design, when laying 1/2 brick in a stacked row of bricks, a series of through holes is formed, lined up along a line running along the spoon face in the middle of the bed face. Moreover, in this row, every second hole is formed as a result of joining the bonded faces of adjacent bricks, in which two recesses form a through hole through the vertical seam of the masonry mortar, followed by a central through hole that exists in the body of each brick. In the next row, the bricks are laid out by analogy with the previous one, but with an offset of half a brick. As a result, the central through hole that is normally existing in the body of each brick is located above the through hole formed by the adjoining through the vertical seam of the masonry mortar with two recesses of adjacent bricks.

In this first embodiment of FIG. 1, the central through hole is located in the center of the brick body and at an equal distance both from the bonding faces and from the walls of the recesses on these faces, which have a direction coinciding with the surface of the bonding faces. However, there may be a brick embodiment of FIG. 2, in which, in the main coincidence of the construction with the brick of FIG. 1, the recesses on the bonding faces are made of different depths. For this case, it is necessary that the sum of the depths of these recesses should also be less than the size of the through hole in the central part of the brick body, measured along the spoon face, by the amount “c” of the vertical joint of the masonry mortar. Then the through hole 6 in the central part should be located at the same distance from the walls of the recesses located along the bonded faces. In this embodiment, the location of the central through hole shifts toward the recess with less depth. With such an optimized arrangement of voids in the brick, the principle of the formation of through channels with in-line laying in a half brick is preserved.

An extreme case of the embodiment of FIG. 2 is an example of a brick in FIG. 3. In this brick, a recess 4 is made only on one bonded face, directed along this face and parallel to the direction of voids in the body of the box. Another bonding face 2 is made in the form of a flat surface. This recess is made for the formation during masonry, together with the flat bonded face of the adjacent brick, of an additional vertical hole. The notch on the bonded face is made with a depth less than the size of the through hole in the central part, measured along the spoon face, by the value "c" of the vertical seam of the masonry mortar. The through hole in the central part is located at the same distance between the recess on one bonded face and the other bonded face. In this example, the slots or pores are rectangular in cross-section through holes arranged in rows of two such holes in a row. All holes are made of the same size in cross section in width and length.

In FIG. 4-6 are examples of the brick in FIG. 1 or 2, characterized by cross-sectional shapes of the through holes 8 in the form of slots or pores. In FIG. 4 - slots or pores are made in the form of a rectangular shape in cross section of through holes, arranged in rows of two such holes in a row. All holes are made of the same width, but differ in length. In each row, one hole is shorter than the length of the other hole. In FIG. 6 and 11 show the same as in FIG. 4, but the holes in the form of pores or slots are made round (they can be oval, elongated with rounding), two holes in each row. And in FIG. 5, the pores or slits are made in the form of a rectangular through-slots of the same width and equal in length to the width of the central through-hole 6. In all of these embodiments of FIG. 1-6 pores or slots are performed in the area located between the recess on the bonded face and the through central hole or between the bonded face and the through central hole (Fig. 3). In this case, the areas at the edges of the bed side along the spoon sides remain full-bodied. But pores or crevices can also be performed in areas near the edges of the bed side along the spoon-shaped sides, as shown in FIG. 10. These pores break the full-bodied structure of the brick and form a complex spatial labyrinth of partitions that redirect heat flow along an indirect path in those areas where the formation of vertical channels is not provided (which break the cold bridges in the areas from the location).

Brick according to any of the options and examples of execution may have special protrusions on the upper spoon face, which allow laying reinforcement between them, which is fixed (fixed) in them, thereby increasing the rigidity of the entire masonry under horizontal load, since the reinforcement does not work only in the horizontal seam of the mortar, but also on the section of the protrusions of the brick itself, while the strength properties of the brick material can significantly exceed the strength properties of the mortar.

In FIG. 7 shows a brick with a central through hole and recesses on the bonded faces, on the upper bed side of which at the through hole in the central part there are made at least two adjacent protrusions 9, which form a lodgement in the gap or space between them for placement and jamming between them on the bed side along or across the spoon side of the core element of the reinforcement 10 (see Fig. 12 and 13). When the bricks are poked abutting in a row of masonry (Fig. 9), a channel is formed on the bed faces along a laid row of bricks between the protrusions 9. A reinforcing rod is laid in such a channel, and then a layer of masonry mortar is placed on the row, covering both the protrusions 9 and the reinforcement (Fig. 13). The height of the protrusions 9 is made no more than the thickness of the horizontal seam of the masonry mortar. In FIG. 7. 8 and 10 these protrusions are made in the form of rectangular parallelepipeds. And in FIG. 11 shows an example of the execution of the protrusions 9 in the form of cylinders.

Brick can be made of:

1. Any clay (including with additives and in combination with special fillers) by plastic and / or vibropress and / or vacuum molding and subsequent firing, as well as by hyperpressing;

2. Any mixture of fillers (crushed stone, expanded clay, slag, ash, etc.) with cement, or foam concrete, aerated concrete, gas lubricants, expanded clay concrete, sawdust concrete by any known method of casting, vibro-casting, vibro-pressing, hyper-pressing;

3. Any mixture (crushed stone, expanded clay, slag, etc.) with cement by dry and / or semi / dry pressing or vibration pressing;

Including from:

3.1. Silicates;

3.2. Expanded clay;

3.3. Concrete in the sand and gravel;

3.4. Concrete on brick waste;

3.5. Sand-cement mixture with the addition of slags and / or granules of foam, polystyrene foam, polyurethane foam, foam glass and other known building materials / additives with thermal insulation properties in various compositions between each other and / or separately;

3.6. Foam concrete with the addition of expanded clay and / or slag of polystyrene granules, polystyrene foam, polyurethane foam, foam glass and other well-known building materials with thermal insulation properties in various compositions between each other or separately;

4. Foam concrete;

5. Aerated concrete;

6. Gas silicate;

7. Mixtures of wood chips and / or shavings with cement or sand-cement mixture, expanded clay concrete, foam concrete, aerated concrete and mineral additives, in any combination.

8. Ashes;

9. Sawdust (concrete + sawdust and / or shavings of various sizes from 1 mm to 30 mm);

10. Wood concrete (concrete + wood chips of various sizes from 2 mm to 50 mm)

11. Perlite concrete;

12. Polystyrene concrete;

as well as any new structural materials suitable for the manufacture of stone blocks / ceramic blocks / bricks.

The use of this utility model in the field of construction during the laying of the external walls of civil and industrial buildings and structures and during the construction of external load-bearing walls of buildings and structures makes it possible to increase the thermotechnical properties of masonry made of such bricks by increasing the voidness of building blocks to increase the length of the heat flux in the brick body with the simultaneous use of channels formed by voids as highways for laying communication networks.

Claims (9)

1. A brick, which is a rectangular parallelepiped in shape with spoon, poke and bed faces, in the body of which there are holes located along the spoon face and facing upwards with voids, and on one of the pushing edges there is a recess directed along this side and parallel to the direction of voids in the body of the parallelepiped and made with the possibility of formation when laying together with the bonded face of the adjacent brick an additional vertical hole, characterized in that on the other bonded a recess has been made, directed along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of forming an additional vertical hole when laying together with the bonded face of the adjacent brick in the central part of the parallelepiped, one through hole located at the same distance from the bonded faces and in shape repeating the shape of the hole obtained by attaching to it the bonded face of the adjacent brick, and between the through hole in the central the second part, the width of which is equal to the width of the recesses, and the recesses on the bonded faces are formed through holes in the form of slots or pores with dimensions along the direction of the spoon face, smaller than the size of the through hole in the central part, measured in the same direction, while the depth of the grooves on the bonded faces are identical and their sum of depths is less than the size of the through hole in the central part, measured along the spoon face, by the value of the vertical seam of the masonry mortar. 2. The brick according to claim 1, characterized in that at least two adjacent protrusions are made on one bed side at the through hole in the central part for placing and pinching between them laid on the bed side along or across the spoon face of the reinforcement core element. 3. Brick according to claim 2, characterized in that the height of the protrusions is made no more than the thickness of the horizontal seam of the masonry mortar. 4. A brick, which is a rectangular parallelepiped in shape with spoon, poke and bed faces, in the body of which there are holes located along the spoon face and facing upwards with voids, and on one of the pushing edges there is a recess directed along this side and parallel to the direction of voids in the body of the parallelepiped and made with the possibility of formation when laying together with the bonded face of the adjacent brick an additional vertical hole, characterized in that on the other bonded a recess has been made, directed along this face and parallel to the direction of voids in the parallelepiped body and made with the possibility of formation, when laying together with the bonded face of the adjacent brick, an additional vertical hole, in the body of the parallelepiped one central hole is made, the width of which is equal to the width of the recesses and which in shape repeats the shape of the hole obtained when the bonded face of the adjacent brick is attached to it, and between the through hole in the central part and the recess through holes in the form of slots or pores with dimensions along the direction of the spoon face smaller than the size of the through hole in the central part, measured in the same direction, the notches on the bonded faces are made of different depths and the sum of their depths is less than the size of the through hole in the central the part measured along the spoon face by the size of the vertical seam of the masonry mortar, while the through hole in the central part is located at the same distance from the walls of the recesses, x along the butt edges. 5. The brick according to claim 4, characterized in that at least two adjacent protrusions are made on one bed side at the through hole in the central part for placing and pinching between them laid on the bed side along or across the spoon face of the reinforcement core element. 6. Brick according to claim 5, characterized in that the height of the protrusions is made no more than the thickness of the horizontal seam of the masonry mortar. 7. A brick, which is a rectangular parallelepiped in shape with spoon, poke and bed faces, in the body of which there are holes located along the spoon side and facing upwards with voids, and on one of the pushing edges there is a recess directed along this side and parallel to the direction of voids in the body of the parallelepiped and made with the possibility of formation when laying together with the flat bonding face of the adjacent brick an additional vertical hole, characterized in that in the body of the parallel In the central part of the die, one through hole is made, the width of which is equal to the width of the recess and which in shape repeats the shape of the hole obtained when the bonded face of the adjacent brick is attached to it, and through holes are formed between the through hole in the central part and the recesses on the bonded faces in the form slots or pores with dimensions along the direction of the spoon face that are smaller than the size of the through hole in the central part, measured in the same direction, while the notch on the butt face is made deep hydrochloric, smaller size of the through hole in the central part measured along the stretcher faces, the magnitude of the vertical seam masonry mortar, and the through hole in the central portion is disposed equidistant between groove binder on one face and the other face of the binder. 8. The brick according to claim 7, characterized in that at least two adjacent protrusions are made on one bed side at the through hole in the central part for placing and pinching between them laid on the bed side along or across the spoon face of the reinforcement core element. 9. Brick according to claim 8, characterized in that the height of the protrusions is made no more than the thickness of the horizontal seam of the masonry mortar.

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