RU2354782C1 - Method of foundation construction - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method of foundation construction involves installation of embedded posts, capping beam and junction units for posts and capping beam. Preliminary soil excavation is performed at the planned foundation point to form 'trough' with horizontal bottom covered by sand filling. Then posts are embedded by pressing to a definite depth, and horizontal thermal insulation screen is laid on prepared sand filling in horizontal 'trough' bottom plane by putting the screen on embedded posts from above in the holes for posts made in the screen in advance, with further mounting of capping beam onto embedded posts by junction units. Then sleeper wall of basement element is attached to external side of embedded posts, which in turn carries vertical thermal insulation screen linked to horizontal thermal insulation screen, and water-proof key covering embedded horizontal plate of thermal insulation screen from above is placed in 'trough' onto the space formed by two screens, with thermal insulation screen covered by sand cushion and then by flagged path. Horizontal screen is covered by sand cushion at internal post side, while vertical wall of thermal insulation screen attached at external sleeper wall is rigidly connected to embedded posts.

EFFECT: enhanced operational quality, reduced cost of lodging construction.

12 cl, 3 dwg

Description

The inventive invention "Method of construction of the foundation" relates to the field of construction and is used to build foundations for low-cost residential houses, for example, in rural areas, for rural intelligentsia and in the implementation of national projects, such as "Affordable Housing".

There is a method of erecting a modular foundation, implemented when erecting a foundation according to the patent of the Russian Federation for the invention No. 2094568, IPC E02D 27/02, publ. 1997.10.27, including the construction of the underground part in the form of supports that are displaceable, and the ground part, which is made in the form of a double-beam beam with the subsequent formation of a basement.

The disadvantage of this method of erecting a modular foundation is its high cost.

This disadvantage is due to both the high cost of displaced supports and the high cost of the method of installation.

There is a method of erecting a foundation, including installing a block, under the sole of which inclined half-sleepers are sequentially placed, and a reinforcing structure, which is made in the form of a reinforced concrete frame made in the form of two lying rectangular sections that are placed along opposite side sides of the block, while the upper ends of the inclined half-sleepers rigidly connected to the beds. The method is implemented in RF patent No. 2082852, IPC E02D 271/00, E024D 27/08, publ. 06.27.1997.

The disadvantage of this method of construction of the foundation is the high cost, as well as the complexity of the construction of such a construction of the foundation due to the high bone material, in particular metal consumption, the duration of the construction of such structures and low performance.

This drawback is due to the fact that such foundations have a high cost due to the high metal consumption, which requires appropriate technical means for their installation, which is unacceptable when building housing for people with low material incomes, for example, for rural intelligentsia, in addition, high metal consumption gives additional cold bridges and reduces the performance of the erected foundation.

The closest technical solution to the claimed invention is a method of erecting a foundation, implemented in the patent of the Russian Federation for invention No. 2062832, IPC E02D 27/01, publ. 1996.06.27, including the installation of concrete pillars, a tape grillage with the subsequent construction of the nodes for connecting the pillars with the grillage, the grillage made of steel channels, and each connection node is made in the form of an anchor bolt mounted on the end of the column with an eccentricity relative to the longitudinal axis of the foundation with the subsequent establishment a support plate with a hole for an anchor bolt, repeating the shape of the upper end of the column with the possibility of interaction with one plane of this plate with the said upper end the flange, and the other plane with the channel shelf, and with further placement under the nut of the anchor bolt G-shaped in the cross section of the pressure plate, which is performed with a hole for the anchor bolt on a large shelf, which has an interacting part of the inner surface with the channel shelf and the end face of the small shelf with a support plate, while the channel is placed above the large quadrants of the plane of the end face of the column with the center coinciding with the axis of the anchor bolt in the plan.

The disadvantage of such methods of building foundations is the high cost, which affects the availability of housing with similar foundations for people with low material incomes, such as rural intellectuals, as well as low performance.

This disadvantage is due to the fact that the method of erecting such foundations in itself is complex and includes a large number of expensive installation works, as well as a large number of expensive components and materials. In addition, the freezing of a house occurs in Siberian conditions due to the arising cold bridges at the locations of metal elements (plates).

The technical result of the present invention is to reduce the cost of installation and preparatory work, the foundation and housing in general, increasing the reliability and performance of housing built on such a foundation.

The technical result is achieved by the fact that in the known method of erecting a foundation, including the installation of buried posts, a tape grill and nodes connecting the poles with a grill, according to the invention, the soil is preliminarily selected at the site of the proposed foundation with the formation of a “trough”, the horizontal bottom of which is covered with sand, then the columns are deepened by pressing to a certain depth and the horizon is laid on the prepared sand bed in the horizontal plane of the bottom of the “trough” a heat-insulating shield by installing it on top of the indented pillars in the holes previously prepared in it for the recessed, indented pillars, on which they subsequently install a tape grillage through the connection nodes, then attach an intermediate wall to the outside of the recessed posts, to which, in its in turn, they attach a vertical heat-insulating screen connected to a horizontal heat-insulating screen, and in the "trough" formed by two screens the space is laid with a waterproof lock covering the top of the horizontal horizontal plateau of the heat-insulating screen, which is covered with a sand preparation on top and subsequently with a blind area, and the horizontal screen is covered with sand preparation on the inside of the piles, and the vertical wall of the heat-insulating screen mounted on the outer intermediate wall is rigidly connected with the depth columns, while the columns are buried by indentation with the help of an excavator bucket, control of the pressed-in load on lublyaemye poles is carried out using compression dynamometer simultaneously with the pressing column in the ground. Tubular piles, mainly asbestos-cement pipe waste, are used as pillars. The heat-insulating screen is made of extruded polystyrene foam (extrol), and the intermediate wall is made of cement-bonded particleboard, in addition, they use a tape grillage made in the form of wooden beams pulled together with screeds, and they can also use a tape grillage made in the form of reinforced concrete rand- beams, the vertical wall of the heat-insulating screen is covered with heat-insulating material from the outside, and plastic pipes are used as buried posts, in addition, as zag ublennyh pillars may use asbestos waste pipe or asbestos cement pipes, wherein lock waterproof covering top recessed horizontal plateau heat-insulating screen is made of broken clays, and controls the pinch load on the pile is carried out using a dynamometer compression simultaneously with the pressing of the pile into the ground.

Between the distinguishing features and the achieved technical result, there is the following causal relationship.

Unlike analogs and prototypes, the implementation of the claimed method of erecting a foundation with a heat-insulating screen, which is made in the form of a vertical wall and connects with it a recessed horizontal plateau with holes through which the recessed posts are carried out, taking into account the fact that the recessed horizontal plateau is installed on sandy preparation and covered on top, on the inside, with a sand preparation, and on the outside, covered with a waterproof lock, which is covered on top with a sand preparation, which , in turn, cover the blind area, - all this, in combination of signs that depend on one another, improves the reliability and performance of the foundation constructed in this way, as well as reduces its cost, since the presence of a heat-insulating screen reduces the freezing depth of the soil and makes it possible not to drive piles in the form of buried pillars, but only push them into the ground at a shallow depth, which significantly reduces the time of construction of the foundation and, accordingly, reduces its cost Th, wherein execution of the pillars in the form of buried pipes or asbestos cement waste asbestos cement pipes or plastic pipes also gives an additional decrease in costs and eliminates the foundation cold bridges, which improves operational quality housing and reduces the cost of accommodation therein by reducing the depth of soil freezing. The installation of the intermediate and external walls of the cement-bonded particleboard in the foundation structure, on which the vertical wall of the heat-insulating screen is fixed, ensures a constant plus temperature of the basement, increasing, in the aggregate of all the signs, the performance of housing on the foundation constructed by the proposed method.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identifying sources containing information about analogues of the claimed invention, made it possible to establish that the applicant did not find an analogue characterized by features identical to those of the claimed invention “Method of erecting a foundation”, and the definition from the list of identified analogues of the prototype, as the closest in the totality of the characteristics of the analogue, allowed to identify the set of essential in relation to perceived by the applicant the technical result of the distinguishing features in the claimed object set forth in the claims.

Therefore, the claimed invention meets the criterion of "novelty" in accordance with applicable law.

According to the applicant, the essence of the claimed invention “Method of foundation construction” does not follow mainly from the prior art, since the above effect on the achieved technical result is not revealed from it — a new property of the object — a set of features that distinguish the claimed invention from the prototype, which allows to conclude that the invention "Method of construction of the foundation" to the criterion of "inventive step".

The set of essential features characterizing the essence of the proposed method of building a foundation can be repeatedly used in the production of similar foundations for small houses, for example, in rural areas, for example, when implementing priority national projects, such as “Affordable Comfortable Housing - for Russian Citizens”, with obtaining technical the result, which consists in improving the performance and reducing the cost of housing, which allows us to conclude that the claimed "Method of foundation construction" criterion "industrial applicability".

The essence of the invention is illustrated by an example of a specific implementation, where

- figure 1 shows a diagram of the installation of buried columns from above in plan;

- figure 2 shows a view of the foundation in a transverse vertical section;

- figure 3 shows a diagram of the installation (indentation) of the recessed columns with the help of an excavator bucket with control of the pressed load using a dynamometer.

The method of construction of the foundation is carried out in the following way. Initially, at the place of the proposed foundation, the soil is preliminarily selected with the formation of the so-called “trough” 1, the horizontal bottom 2 of which is covered with sandy bedding 3, then deepened by pressing to a certain depth of columns 4 and the prepared sandy bedding 3 in the horizontal plane of the bottom 2 of the “trough” 1 is laid horizontal heat-insulating screen 5 by installing it on top of the indented recessed posts in the holes 6 previously prepared in it for the recessed, installed indentations we have poles 4, on which a ribbon grill 8 is subsequently installed by means of connection units 7, after which an intermediate wall 10 is attached to the outer side 9 of the buried posts 4, to which, in turn, a vertical heat-insulating screen 11 is connected that is connected with a horizontal heat-insulating screen 5 , and in the "trough" 1 on the space 12 formed by two heat-insulating screens 5 and 11, a waterproof lock 13 is laid covering the top of the recessed horizontal plateau of the heat-insulating screen 5, which cover with a sand preparation 14 and further with a pavement 15, and on the inner side 16 of the buried columns 4, the horizontal screen is covered only with a sand preparation 3. The vertical wall 11 of the heat-insulating screen mounted on the outer intermediate wall 10 is rigidly connected to the buried columns by means of fasteners 17 , for example, self-tapping screws. The buried columns 4, which are mainly used asbestos-cement pipes waste, are deepened by pressing with the help of a bucket 18 of the excavator 19 (Fig. 3) and a heat-insulating screen made of extruded polystyrene foam (extrol) is used, and the intermediate wall is made of cement-bonded particleboard In addition, they use a tape grillage made in the form of wooden beams pulled together with screeds (not shown in the diagram).

In the proposed method of installation of the foundation can also use a tape grillage made in the form of reinforced concrete beams. Outside, the vertical wall of the heat-insulating screen is covered with heat-insulating material 20. Plastic pipes are sometimes used as buried posts, in addition, asbestos-cement pipes can also be used as buried posts, but mainly waste from asbestos-cement pipes is used, since it is much cheaper and does not need a standard length of pipe cut, because it does not require a large depth of penetration. A waterproof lock covering the buried horizontal plateau of the heat-insulating screen on top is made of crushed clay.

The application of the present invention, “Method of erection of the foundation” will improve the performance of housing built on such foundations and apply similar methods of erection of foundations in the implementation of social and priority national projects, for example, such as “Affordable Comfortable Housing - for Russian Citizens”, in the construction of small one-story and two-story , for example, rural houses, to reduce their cost, ensuring the availability of such housing for people with low material incomes, for example, rural FIR intellectuals.

Claims (12)

1. A method of erecting a foundation, including the installation of buried posts, a tape grillage and nodes connecting the poles with a grillage, characterized in that the soil is preliminarily selected at the site of the proposed foundation with the formation of a “trough”, the horizontal bottom of which is covered with a sand bed, then deepened by pressing to a certain depth poles and on the prepared sand bed in the horizontal plane of the bottom of the "trough" lay a horizontal heat-insulating screen by installing it on top of the depth by pressing in columns into previously prepared holes for recessed, installed by indenting columns, on which a ribbon grillage is subsequently installed by connecting nodes, then an intermediate wall of the basement element is attached to the outside of the buried columns, to which, in turn, a vertical heat-insulating screen is attached connected with a horizontal heat-insulating screen, and in the "trough" on the space formed by two screens lay waterproof Deputy ok, covering the top of the horizontal horizontal plateau of the heat-insulating screen, which is covered from above with sand preparation and further pavement, and the horizontal screen is covered with sand preparation from the inside of the posts, and the vertical wall of the heat-insulation screen, mounted on the outer intermediate wall, is rigidly connected with the depth columns. 2. The method of erecting the foundation according to claim 1, characterized in that the columns are deepened by indentation using an excavator bucket, and tubular piles are used as columns. 3. The method of erecting a foundation according to claim 1, characterized in that a heat-insulating screen made of extruded polystyrene foam (extrol) is used. 4. The method of erecting a foundation according to claim 1, characterized in that an intermediate wall made of cement-bonded particleboard is used. 5. The method of construction of the foundation according to claim 1, characterized in that they use a tape grillage made in the form of wooden beams pulled together with screeds. 6. The method of construction of the foundation according to claim 1, characterized in that they use a tape grillage made in the form of reinforced concrete rand beams. 7. The method of erecting a foundation according to claim 1, characterized in that the vertical wall of the heat-insulating screen is closed from the outside with heat-insulating material. 8. The method of construction of the foundation according to claim 1, characterized in that plastic pipes are used as recessed columns. 9. The method of construction of the foundation according to claim 1, characterized in that asbestos-cement pipes are used as buried columns. 10. The method of construction of the foundation according to claim 1, characterized in that as the buried columns use waste asbestos-cement pipes. 11. The method of construction of the foundation according to claim 1, characterized in that the waterproof lock covering the top of the recessed horizontal plateau of the heat shield is made of crushed clay. 12. The method of construction of the foundation according to claim 1, characterized in that the control of the pressed load on the pile is carried out using a compression dynamometer simultaneously with the process of pushing the pillars into the ground.

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