RU13380U1 - BRICK - Google Patents

Abstract

1. Brick with rows arranged in rows in the direction of the heat flux of slit-like voids made of main and additional lengths and lintels separated from each other by the row length, characterized in that it is made of a raw material mixture comprising at least 25 wt.% Of TPP ash, and voids it is placed with alternating rows so that one of the rows contains two voids of the main length, and the other contains one cavity of the main length between two voids of additional length, while the jumpers in adjacent rows are offset from each other by 0.4-0.6 longitudinal ra basic length voids measure which is 0,28-0,47 size hollow bricks along ryada.2. Brick according to claim 1, characterized in that it contains three void rows with a void width of 0.017-0.3 the size of the brick across the void rows. Brick according to claim 1, characterized in that it contains more than three void rows with a void width of 0.017-0.2 the size of the brick across the void row.

Description

The utility model relates to construction, namely to the construction of building stones, widely used for laying external and internal walls.

A brick is known with a void open from below. In the "roof that overlaps this void" a hole is made for grabbing the brick with the fingers of your hand when fanning it into the mortar and laying it in place (see USSR AS No. 50272, class E04C 1/06, application 15.03 .37 "Shaped brick).

Such a brick, with a void size corresponding to most of the internal volume of the brick, has good thermophysical indicators, but is at risk of destruction by breakage, chips, cracking, etc. its thin walls under the action of the applied load.

The closest in technical essence to the claimed solution, the achieved effect and selected as a prototype is a ceramic brick with slit-like voids located in rows across the direction of the heat flux. The voids are made of the main and additional length. The longitudinal dimension of the additional length void provides the same thickness of the end wall of the brick as is provided near the main length void. The voids are separated from each other along the length of the row by jumpers, and in

BRICK

direction of heat flow - by partitions. Partitions are made with a thickness of less than 1/15 of the size of the brick in the direction of the heat flux, the width of the voids is less than 9/10 of the thickness of the partitions, and the ratio of the width to the length of the voids is less than 1/10 (see AS USSR No. 586254 according to class E 04C 1/08 declared. 22.04.76, publ. 30.12.77 "Building stone.)

Such a brick in comparison with the analogue is more durable by replacing one void with a group of slit-like voids. However, the given ratio of the sizes of voids and partitions shows that the length of the void can vary so much that it can be placed in a row from one to several voids (with a standard brick size of 250x120x65 - up to three voids of the main length). This leads to the fact that with a minimum void size there are four “cold bridges (two at the ends of the brick, two between the voids), which allow the heat flux to penetrate intensively to the opposite face of the brick, which impairs its heat engineering properties. At the maximum length of the void, the strength characteristics of the brick, cut by the voids from one end wall to the other, deteriorate.

In addition, the dense ceramic material of the brick also negatively affects its heat-shielding properties.

Thus, the disadvantage of the prototype is the imbalance of the heat-shielding and strength characteristics of the brick, which does not allow using it as a heat-efficient material for laying bearing structures of multi-storey buildings.

The objective of this utility model is to create a heat-efficient material for laying bearing walls of multi-storey buildings.

The technical result that provides a solution to the problem is to optimize the mutual arrangement of voids, the ratio of their sizes and composition from which the brick is made.

This problem is solved due to the fact that in a well-known brick with rows located across the direction of the heat flux, slit-like voids are made of the main and additional length and separated by jumpers, according to the utility model, the raw material mixture for its manufacture includes at least 25 wt. .% ash TPP, and voids in it are placed with alternating rows, one of which contains two voids of the main length, and the other one one emptiness of the main length between two voids of additional length, with jumpers in adjacent rows axes are shifted relative to each other by 0.4-0.6 of the longitudinal dimension of the main length void, and the longitudinal dimension of the main length void is 0.28-0.47 of the size of the brick along the void row.

In addition, the brick may contain three void rows with a void width of 0.017-0.3 the size of the brick across the void rows.

A brick may also contain more than three void rows with a void width of 0.017-0.2 the size of a brick across a void row.

Studies on the sources of patent and scientific and technical information showed that the claimed brick is unknown, i.e. meets the criterion of "novelty.

industry standard equipment required. Such a brick can be widely used in the construction of industrial and civil facilities, i.e. is industrially applicable.

The raw material mixture, comprising at least 25 wt.% Of TPP ash, is a plastic easy-to-form mass, which makes it possible to obtain, after molding, a brick with clearly stated size ratios of all its structural elements, which, after the manufacturing process, has high strength characteristics and reduced bulk density.

The placement of voids in the stone in the claimed manner allows not only to optimally redistribute the local stresses arising from the loads throughout the entire volume of the brick, but also to ensure the maximum length of the "cold bridge with its minimum width, i.e. make it most difficult for the heat flux to pass from the outer face of the brick to its inner face. At the same time, an increase in the longitudinal longitudinal void size of more than 0.47 of the brick size along the void rows reduces the strength characteristics of the brick below a critical level, and a decrease in the value of less than 0.28 of the brick size along the void rows expands the cold bridge so much that it worsens the heat-insulating properties of the brick . Introduction to the raw mix for bricks of less than 25 wt.% Ash TPP increases the density of the brick, and, therefore, reduces its heat-shielding properties.

A successful combination of thermal strength characteristics of a brick with manufacturability makes it possible to fulfill it with three void rows with a void width of 0.017-0.3 the size of the brick across the void rows.

Making a brick with more than three void rows with a void width of 0.017-0.2 the size of a brick across a void row is somewhat more complicated in technology than a brick with three rows of voids, but it provides higher heat-shielding characteristics.

Thus, the inventive brick due to the optimization of the mutual arrangement of voids, the ratio of their size and composition of the raw material mixture from which it is made, has high heat-shielding and strength characteristics, which allows it to be used as an independent heat-efficient material for multi-story construction.

The claimed technical solution is illustrated by the drawing, which shows a brick in a perspective view.

The brick is made of a lime-containing raw material mixture, comprising 93% of TPP ash, and contains slit-like voids 1 of the main length and voids 2 of the additional length. Voids 1,2 can be made either through or open only from below. The voids 1,2 are arranged in rows across the direction of the heat flux crossing the brick, shown in the figure by arrows 3. The voids 1,2 are separated from each other along the row by jumpers 4.

The void rows are made of two types, one of them consists of two voids 1 of the main length, the other of one void 1 of the main length, located between two voids 2 of additional length. The length of the void 2 additional length is selected so as to provide the same thickness of the end wall of the brick, which is provided near the void 1 of the main length. Jumpers 4 in adjacent rows are offset relative to each other by half of the void 1 of the main length. At the same time, “cold bridge 5 (indicated by a dashed line in the drawing)

forms a jumper 4 between the voids 1 of the first row (counting from the outside of the heat flux side of the brick), a section of brick between the voids 1 of the first and second row, equal to half the length of the voids 1 of the main length, the jumper 4 between the voids 1 of the second row, etc. to the inner edge of the brick, i.e. “The cold bridge 5 has the maximum possible length.

Thus, in comparison with the prototype, the claimed composition of the mixture with a low bulk density of which the brick is made, provides a clear adherence to the aspect ratio of the structural elements of the brick and, therefore, the optimal arrangement of voids. This allows you to redistribute the load over the entire volume of the brick, to ensure such dimensions of the "cold bridge, which minimize heat-shielding properties, i.e. provides the creation of high-strength heat-efficient material.

Claims (3)

1. Brick with rows arranged in rows in the direction of the heat flux of slit-like voids made of main and additional lengths and lintels separated from each other by the row length, characterized in that it is made of a raw material mixture comprising at least 25 wt.% Of TPP ash, and voids it is placed with alternating rows so that one of the rows contains two voids of the main length, and the other contains one cavity of the main length between two voids of additional length, while the jumpers in adjacent rows are offset from each other by 0.4-0.6 longitudinal ra basic length voids measure which is 0,28-0,47 size hollow bricks along the row.  2. The brick according to claim 1, characterized in that it contains three void rows with a void width of 0.017-0.3 the size of the brick across the void rows. 3. The brick according to claim 1, characterized in that it contains more than three void rows with a void width of 0.017-0.2 the size of the brick across the void row.