RU2139980C1 - Method for protecting surface of construction objects - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: method is intended for arranging thermal-insulating coating on existing and newly erected buildings and structures. For realization of method, embedded into load-bearing part of structure are anchors and mounted on them are thermal-insulating panels. Reinforcement nets are installed. Then, facing layer of cement mortar is built over ends of anchors. Thermal-insulating panels are made in the form of thermal-insulating mats or thermal-insulating blocks. Reinforcement net is installed on anchors in two rows according to thickness of facing layer with displacement of net cells. Facing layer is applied to reinforcement net by means of wet guniting. After embedding anchors in load-bearing part of structure, load-bearing rods can be inserted into them. Rods are installed by longitudinal displacement along axis, thus giving them function of datum mark as used in plastering operations. Anchors can be embedded into load-bearing part of structure at angle of 0-45 deg. to horizon. Free end of anchor protruding from surface of load-bearing part of structure is installed horizontally. Before application of facing layer, waterproofing insulation or waterproofing coating is installed on surface of thermal-insulating panels turned towards facing layer. Air clearance is left between surface of thermal-insulating mats and facing layer. Before fitting reinforcement net over ends of load-bearing rods, attached is woven or non-woven material preliminarily impregnated with cement or gypsum slurry. Application of aforesaid method improves insulating properties and reduces materials inputs. EFFECT: higher efficiency. 24 cl, 7 dwg

Description

 The invention relates to the field of construction and can be used in construction, repair, reinforcement and heat and sound insulation of structures and their fire protection.

 A known method of shotcrete surface and building structure with a protective layer of shotcrete, described in "Methodological recommendations on technology and mechanization of work in the construction, repair, reinforcement of structures by spraying concrete mixture", Moscow 1986, GOSSTROI USSR, TSNIIOMTP p. 5 - 6 pic. 3. The method is that an anchor is hammered into the existing structure, onto which a reinforcing mesh is fixed, and then a shotcrete-concrete coating is applied. The described technique allows you to create an external cladding layer of the structure, but does not provide thermal insulation requirements for buildings.

 Also known is the wall of the building from the material being thrown and the method of its construction. The wall includes flat-shaped metal beams located perpendicular to the plane of the wall, metal elements in the form of a flat grid fixed to these beams from the inside of the wall. It is completely recessed into the supporting inner wall, which is obtained by shotcreting. A layer of insulating material placed between the beams, and a metal element such as three-dimensional reinforcement, mounted on the beams on the outside of the wall. It is recessed into the outer layer of the wall obtained by shotcreting and playing the role of cladding (French patent 2422778 from 1978 MKI E 04 B 2/84). This method is only suitable for newly constructed structures.

 The closest analogue adopted for the prototype to the proposed method for protecting the surface of a building structure and a building structure with a protective layer is a heat and sound insulated reinforced concrete wall and the method for its manufacture according to Japanese application N 62-9699 from 1987 MKI E 04 B 1/76: An anchor is installed in the existing structure, with which the rod is joined with a nut. A washer is put on this rod, forming a gap between the wall and the insulation plate made of foam. Then, extended nuts are screwed onto the threaded parts of the rods and a wire is formed through the holes made in the rods and nuts, forming a reinforcing mesh, on which a layer of cement mortar is laid.

 The disadvantage of the described method and device is, firstly, the need for additional coating to “soak” the surface of the structure when applying the protective layer for subsequent application of the protective layer to the design position, secondly, the complexity of the design of the anchor and its installation, and thirdly, the absence the possibility of installing a protective layer "on the relative" to create optimal conditions for the operation of thermal insulation.

 The objective of the present invention is to create the ability to adjust the accuracy of the distance between it and the surface of the existing structure during the installation of the reinforcing mesh, reducing the specific load from the protective layer of shotcrete, transmitted through the anchor to the structure, providing the possibility of installing a protective shotcrete-concrete layer "on "from the existing design, the possibility of protecting the thermal insulation from water penetration when applying a shotcrete-concrete mass to its surface.

 This problem is solved due to the fact that when implementing the method of protecting the surface of the structure, which consists in embedding anchors in the bearing part of the structure, hanging insulating panels on them, installing reinforcing mesh and the subsequent installation of a protective layer of cement mortar at the end of the anchors, the insulating panels are made in the form heat-insulating mats, mainly polystyrene foam, or polyurethane foam, or mineral wool, or based on basalt or stone fibers. The free ends of the anchors are set at a distance from the surface of the supporting part of the structure equal to the design position of the day surface of the protective layer, and a reinforcing mesh is rigidly fixed to the fixing elements located at these free ends. Sand of a fraction of 2 mm is added to the cement mortar and the resulting cement-sand mixture is applied to the reinforcing mesh under pressure by the method of "wet" shotcrete. An anchor is made up of an anchoring element and a supporting rod connected to the anchoring element, and after embedding in the bearing part of the anchoring element structure, the bearing rods are inserted by longitudinal movement along the axis at a distance from the surface of the bearing part of the structure equal to the design position of the day surface of the protective layer. An anchor is embedded in the bearing part of the structure at an angle to the horizontal of 0 - 45 degrees, and their free ends protruding from the surface of the bearing part of the structure are installed horizontally. An intermediate sleeve is mounted on the free end of the anchor, on which a supporting rod is fixed. Before applying a protective layer to the surface of the insulating mats facing the protective layer, a hydrophobic insulation is installed or a hydrophobizing coating is applied. An air gap is left between the surface of the insulating mats and the protective layer. The anchor and / or the supporting rods are mounted on the glue, and the longitudinal movement of the supporting rod along its axis is carried out before the hardening of the glue. Before attaching the reinforcing mesh at the ends of the supporting rods or anchors, woven or non-woven material pre-impregnated with cement or gypsum mortar is mounted.

 The building structure with the facing layer contains the supporting part, anchors, insulation panels and a protective layer with reinforcing mesh. Insulation panels are made in the form of insulating mats or insulating blocks. The free ends of the anchors are set at a distance from the surface of the supporting part of the structure equal to the design position of the day surface of the protective "layer, and there are fixing elements on them, to which the reinforcing mesh with a protective layer made in the form of shotcrete or shotcrete coating is rigidly fixed. Heat-insulating mats are made in the form of heat-insulating plates, mainly polystyrene foam, or polyurethane foam, or mineral wool, or based on basalt or stone fiber, and heat insulation The latching blocks are made mainly of foam concrete, or foam gypsum, or foam concrete, or foam ceramite-polymer. The anchor is made up of an anchoring element and a supporting rod connected to the anchoring element with the possibility of longitudinal movement along the axis of the anchor. The anchor is embedded in the bearing part of the structure at an angle to the horizontal 0 - 45 degrees, and its free end, protruding on the surface of the supporting structure, is installed horizontally. The cross section of the anchor is made in the form of an oval, the large axis of which is located vertically. At the free end of the anchor protruding on the surface of the supporting part of the structure, a coupling is mounted in which the supporting rod is fixed. Additional heat insulating sleeves are installed on the supporting rods and / or anchor, piercing the heat insulating mats over their entire thickness. On the surface of the insulating panels facing the protective layer, hydrophobic insulation is installed or a hydrophobizing coating is applied. An air gap is formed between the surface of the insulation panels and the protective layer. Anchor and / or supporting rods are mounted on glue. A woven or non-woven material impregnated with cement or gypsum mortar is mounted at the ends of the supporting rods. An additional support sleeve is mounted on a portion of the rod located in the body of the supporting part of the structure. On the surface of the supporting part of the structure, support tables are discretely mounted on which the insulation panels are supported. The width of the supporting tables is 1/2 - 2/3 of the thickness of the insulation panels. On the supporting tables, plates of heat-insulating material are mounted, the width of which is equal to the thickness of the insulation panel supported on them.

 A comparative analysis of the claimed invention with the prototype shows that the surface spraying method is characterized in that the insulating panels are made in the form of heat-insulating mats, mainly polystyrene or polyurethane, or mineral wool, or based on basalt or stone fibers. The free ends of the anchors are set at a distance from the surface of the supporting part of the structure equal to the design position of the day surface of the protective layer, and a reinforcing mesh is rigidly fixed to the fixing elements located at these free ends. Sand of a fraction of 2 mm is added to the cement mortar and the resulting cement-sand mixture is applied to the reinforcing mesh under pressure by the method of "wet" shotcrete. An anchor can be made integral of the anchoring element and the supporting rod connected to the anchoring element, and after embedding in the bearing part of the structure of the anchoring element, the bearing rods are set by longitudinal movement along the axis at a distance from the surface of the bearing part of the structure equal to the design position of the day surface of the protective layer. Anchors can be embedded in the supporting part of the structure at an angle to the horizontal of 0-45 degrees, and the free end of the anchor protruding from the surface of the supporting part of the structure is installed horizontally. An intermediate sleeve can be mounted on the free end of the anchor, on which a support rod is fixed. Before applying a protective layer to the surface of the insulating mats facing the protective layer, they can install hydrophobic insulation or apply a hydrophobic coating. An air gap may be left between the surface of the insulating mats and the protective layer. The anchor and / or the supporting rods can be mounted on the adhesive, and the longitudinal movement of the bearing rod along its axis is carried out before the hardening of the adhesive. Before attaching the reinforcing mesh at the ends of the supporting rods or anchors, a woven or non-woven material pre-impregnated with cement or gypsum mortar can be mounted.

 The building structure with the facing layer is characterized in that the insulation panels are made in the form of heat-insulating mats or heat-insulating blocks. The free ends of the anchors are set at a distance from the surface of the supporting part of the structure, equal to the design position of the day surface of the protective layer, and there are fixing elements on which reinforcing mesh with a protective layer made in the form of shotcrete or shotcrete coating is rigidly fixed. Heat-insulating mats can be made in the form of heat-insulating plates, mainly polystyrene foam, or polyurethane foam, or mineral wool, or based on basalt or stone fiber, and heat-insulating blocks can be foam-concrete, or foam-gypsum, or foam-concrete-polymer or foam-ceramic-resin-polymer. The anchor can be made integral of the anchoring element and the supporting rod connected to the anchoring element with the possibility of longitudinal movement along the axis of the anchor. In addition, the anchor can be embedded in the supporting part of the structure at an angle to the horizontal of 0 - 45 degrees, and its free end protruding on the surface of the supporting structure is installed horizontally, while the cross section of the anchor can be made in the form of an oval, the major axis of which is located vertically. At the free end of the anchor protruding on the surface of the supporting part of the structure, a sleeve can be mounted in which the supporting rod is fixed. Additional heat insulating sleeves piercing the heat insulating mats throughout their thickness can be installed on the supporting rods and / or anchors. On the surface of the insulating panels facing the protective layer, hydrophobic insulation can be installed or a hydrophobic coating is applied. An air gap may be formed between the surface of the insulation panels and the protective layer. Anchors and / or supporting rods can be mounted on glue. At the ends of the bearing rods, a woven or non-woven material impregnated with cement or gypsum mortar can be mounted. An additional support sleeve may be mounted on a portion of the shaft located in the body of the supporting part of the structure. On the surface of the supporting part of the structure, support tables can be discretely mounted on which the insulation panels are supported. The width of the supporting tables can be 1/2 - 2/3 of the thickness of the insulation panels, and on the supporting tables can be mounted plates of heat-insulating material, the width of which is equal to the thickness of the insulation panel supported on them.

 This analysis allows us to conclude that there is novelty in the proposed invention.

 A comparison of the proposed method of shotcrete of the surface and building structure with a protective layer of shotcrete with other known technical solutions of the same purpose shows that installing an additional supporting rod in the anchor with the possibility of longitudinal movement along the axis allows you to adjust the distance between the reinforcing mesh and the surface of the building structure in the installation process of the grid, thus fulfilling the role of beacons used in plastering, and to accurately install the grid in ktnoe position. In addition, the described technique makes it possible to hang thermal insulation on the anchor and, depending on its thickness, install a reinforcing mesh, as well as install a hydrophobic coating on the thermal insulation surface and, if necessary, spray-coat the concrete layer from the existing structure or from the thermal insulation surface , which improves the thermal characteristics of the building element. Installing a sleeve on an additional rod between the end of the anchor and the surface of the existing structure reduces the specific load of shotcrete transferred through the anchor to the existing structure, and installing the sleeve in the area of the insulation is designed to increase the area of support of the insulation on the rod. Installing the anchor at an angle from 0 to 45 degrees to the horizontal on the adhesive greatly simplifies its installation and the installation process in the body of the structure, and its oval shape allows you to increase the bearing capacity. The use of support tables discretely mounted on the surface of the supporting part of the structure, especially coated with plates of heat-insulating material, makes it possible to use low-quality thermal insulation.

 These beneficial effects can be obtained by using all of the claimed features. The comparison allows us to conclude that the proposed technical solution exceeds the existing level of technology and the achievement of the invention of the task.

The invention is illustrated by examples of its implementation. The drawings show: in FIG. 1 is a general view of a wall with a supporting rod;
- in FIG. 2 - general view of the wall with a curved anchor;
- in FIG. 3 is a general view of a wall with a curved anchor and a supporting rod, with an air gap;
- in FIG. 4 - the same, without air gap;
- in FIG. 5 - node mounting the reinforcing mesh to the anchor;
- in FIG. 6 - wall facade with supporting tables;
- in FIG. 7 is a section along AA in FIG. 6.

 A blind hole 2 is made in the bearing part 1 of the wall, in which an anchor 3, 4 is installed, made either in the form of an expansion sleeve 3 or in the form of a curved rod 4. The anchors can be installed either by clogging them with a wedging end, or on glue. The anchor can be made integral of the anchoring element 3, 4, into which the supporting rod 6 is inserted on the thread 5. In cases where the bearing part of the wall 1 is made of low-quality brick, cinder blocks, etc. materials with low resistance to compression, an additional supporting sleeve 8 is freely mounted on a section of the bearing rod located in the body of the bearing part of the wall flush with the wall surface 8. Insulating panels 9 are installed close to the surface of the bearing part of the wall 9, which can be glued to the wall surface or can be freely put on anchors and / or supporting rods. As insulating panels, foam concrete, or foam gypsum, or foam concrete, or foam expanded polymer blocks or polystyrene, or polyurethane, or mineral wool mats or mats based on basalt or stone fibers can be used. In the case when thermal insulation with a low specific resistance to compression is used, heat-insulating sleeves are installed on the bearing rods or anchor, with which heat-insulating mats are pierced throughout their thickness. From the outer surface of the wall 7 of the plane of the insulating panels, a hydrophobic insulation can be installed or a hydrophobic coating 11. A reinforcing mesh 12 and 13 is fixed to the free end of the carrier rod 6 or anchor 4, which can be installed in two rows along the thickness of the protective layer 14 with offset the cells of one row 12 relative to the cells of the other row 13 by the value of "a", determined from design considerations, which prevents cracking of pieces of a protective cement-sand layer in case of fire. Between the protective layer 14 and the insulating panel 9, an air gap 15 can be formed, during the device of which a fine-mesh steel reinforcing mesh or woven or non-woven polymer material 16, impregnated with cement or gypsum mortar, is hung on the anchor 4 or the supporting rod 6, acting as a screen when applying cement sandy protective layer 14. In the case when the anchor 4 is made curved, it is mounted in the wall at an angle from 0 to 45 degrees to the horizontal, and its free end 17 protruding from the surface 7 of the carrier part of the wall 1, mounted horizontally. An embodiment of such a curved anchor is possible, on the free end 17 of which a coupling 18 is mounted on the thread 5 with a supporting rod 6 fixed therein. The coupling 18 may have an end flange 19, by which, when installed, it presses the insulation panel 9 against the wall surface 7. To fix the reinforcing nets 12 and 13 at the end of the anchor 4 or the supporting rod 6, a transverse through hole 20 is made in them or fixing plates 22 are mounted on the thread 21. Shorties 23 of reinforcing steel are inserted into the holes 20, to which the reinforcing mesh 12 is tied with knitting wire 24 or 13. An anchor of the type of curved rods 4 and bearing rods 6 can be made in the form of an oval 25, the major axis 26 of which is located vertically; The oval can be obtained by flattening the circumference from the sides (not shown in the drawings), for example by hot forging. To increase the load-bearing capacity of insulating boards, especially low-quality ones, on the surface of the bearing part of the wall 1, support tables 27 are mounted, the width of which is from 1/2 to 2/3 of the thickness of the insulation panels 14. Additionally, plates 28 made of heat-insulating material can be installed on the support tables, then the width of such a supporting table can be increased to the full thickness of the insulating panel 14.

 The way to protect the surface of an existing wall is made in the following order: a blind hole 2 is drilled in the bearing part of the wall 1, in which the anchor 3 or 4 is installed by clogging or gluing. When using the curved anchor 4, it can be bent after installation in the bearing part of the wall. In the case when the anchor is mounted on glue, the diameter of the hole corresponds to the diameter of the anchor, and when it is installed in the hole, the axis is moved until the glue has set, moving the free end 17 at a distance equal to the design position of the protective layer 14 relative to the surface 7 of the wall bearing part , however, taking into account the need to cover the ends of the anchor or the supporting rod with a cement-sand mixture. If, however, a support rod 6 is mounted in the anchor on the thread 5, it is also moved along the axis by the distance indicated above. These operations allow you to "blur" the entire surface of the future protective layer. In the case when the clutch 18 is used, before the operation of installing the supporting rod 6 in the design position on the horizontal section 17 of the anchor 5, insulating panels 9 are put on, and in the case of using heat-insulating blocks, they are laid around this horizontal section 17. Alternatively, on the horizontal section of the anchor 4 or the supporting rod 6 can be installed insulating sleeve 10, piercing the heat-insulating mats 9 over their entire thickness, increasing the area of abutment of the heat-insulating mats 9 on the anchor. Then, the supporting rod 6 is screwed onto the coupling 18 and then for all design variants the following operations are performed: at the end of the anchor 4 or the supporting rod 6, reinforcing mesh 12 and 13 are fixed in the through holes 20 or on the fixing plates 22 so that their cells are shifted one relative to the other, and by rotation along the thread 21 of the fixing plates 22, the necessary clearance is established between the rows of reinforcing mesh 12 and 13. Then, a protective layer of cement-sand is applied to them using the wet gunning method anogo solution 14 with fineness modulus sand 2 mm. When the air gap 15 is installed, before installing the reinforcing mesh 12 and 13, a woven or non-woven polymer material 16 impregnated with cement or gypsum mortar is installed on the end of the anchor 4 or the supporting rod 6, which acts as a backing screen for the shotcrete plaster. A hydrophobic layer or a hydrophobizing coating 11 is applied to the surface of the insulation panels either before they are installed or immediately after their installation. If necessary, an additional vapor barrier layer (not shown in the drawings) may be installed in the wall structure, the location of which is determined by calculation.

 The proposed technical solution, in addition to the above advantages, makes it possible to obtain a fireproof anti-vandal strong and durable coating of building structures, and the introduction of sprayed plaster into the composition of the shotcrete gives the finished surface of the structure a finished look that does not require additional painting. Another advantage of the proposed design: if during the operation of the building the thermal insulation layer 9 is destroyed, the void formed between the wall 1 and the layer of shotcrete-plaster 14 can be filled with some other loose or foaming heat-insulating material, such as ecowool, without destroying the protective shotcrete-plaster layer.

Claims (24)

 1. The method of protecting the surface of the structure, which consists in embedding anchors in the load-bearing part of the structure, hanging insulating panels on them, installing reinforcing mesh and then installing a protective layer of cement mortar at the end of the anchors, characterized in that the insulating panels are made in the form of heat-insulating mats, mainly polystyrene or polyurethane foam or mineral wool or based on basalt or stone fibers, while the free ends of the anchors set at a distance from the surface of the structural part equal to the design position of the day surface of the protective layer and is rigidly fixed to the fixing elements located at these free ends, a reinforcing mesh is added to the cement mortar, 2 mm sand is added and the resulting cement-sand mixture is applied to the reinforcing mesh under pressure using the wet method "shotcrete.  2. The method of protecting the surface of a structure according to claim 1, characterized in that the anchor is made up of an anchoring element and a supporting rod connected to the anchoring element, and after being embedded in the bearing part of the anchoring element structure, the bearing rods are set by longitudinal movement along the axis at a distance from the surface of the bearing part of the structure equal to the design position of the day surface of the protective layer. 3. The method of protecting the surface of a structure according to claim 1, characterized in that the anchor is embedded in the supporting part of the structure at an angle to the horizontal of 0 - 45 ^o , and the free end of the anchor protruding from the surface of the supporting part of the structure is installed horizontally.  4. The method of protecting the surface of a structure according to claim 1 or 2, characterized in that an intermediate sleeve is mounted on the free end of the anchor, on which the supporting rod is fixed.  5. The method of protecting the surface of a structure according to claim 1, characterized in that before applying the protective layer to the surface of the insulating mats facing the protective layer, a hydrophobic insulation is installed or a hydrophobizing coating is applied.  6. The method of protecting the surface of a structure according to claim 1 or 5, characterized in that an air gap is left between the surface of the heat-insulating mats and the protective layer.  7. The method of protecting the surface of a structure according to any one of claims 1, 2 and 3, characterized in that the anchor and / or the supporting rods are mounted on the adhesive, and the longitudinal movement of the bearing rod along its axis is carried out before the hardening of the adhesive begins.  8. The method of protecting the surface of a structure according to claim 1, characterized in that before attaching the reinforcing mesh at the ends of the supporting rods or anchors, woven or non-woven material pre-impregnated with cement or gypsum mortar is mounted.  9. A building structure with a facing layer containing a bearing part, anchors, insulation panels and a protective layer with a reinforcing mesh, characterized in that the insulation panels are made in the form of insulating mats or insulation blocks, while the free ends of the anchors are set apart from the surface of the bearing part structures equal to the design position of the day surface of the protective layer, and fixing elements are located on them, to which a reinforcing mesh with a protective layer made in the form is rigidly fixed e gunite-concrete or gunite-plaster coating.  10. The building structure with a protective layer according to claim 9, characterized in that the heat-insulating mats are made in the form of heat-insulating plates, mainly polystyrene foam, or polyurethane foam, or mineral wool, or based on salt-free or stone fiber.  11. The building structure with a protective layer according to claim 9, characterized in that the heat-insulating blocks are mainly made of foam concrete or foam gypsum, or foam concrete, or foam expanded clay polymer.  12. The building structure with a protective layer according to claim 9, characterized in that the anchor is made up of an anchoring element and a supporting rod connected to the anchoring element with the possibility of longitudinal movement along the axis of the anchor. 13. The building structure with a protective layer according to claim 9, characterized in that the anchor is embedded in the supporting part of the structure at an angle to the horizontal 0 - 45 ^o , and its free end protruding on the surface of the supporting structure is installed horizontally.  14. The building structure with a protective layer according to claim 9 or 13, characterized in that the cross section of the anchor or the supporting rod is made in the form of an oval, the major axis of which is located vertically.  15. The building structure with a protective layer according to claim 9, characterized in that on the free end of the anchor protruding on the surface of the supporting part of the structure, a sleeve is mounted in which the supporting rod is fixed.  16. The construction composition with a protective layer according to claim 9 or 10, characterized in that additional heat-insulating sleeves piercing the heat-insulating mats throughout their thickness are installed on the bearing rods and / or anchor.  17. The building structure with a protective layer according to claim 9, characterized in that on the surface of the insulating panels facing the protective layer, hydrophobic insulation is installed or a water-repellent coating is applied.  18. The building structure with a protective layer according to claim 9, characterized in that an air gap is formed between the surface of the insulation panels and the protective layer.  19. The building structure with a protective layer according to claim 9, characterized in that the anchor and / or the bearing rods are mounted on the adhesive.  20. The building structure with a protective layer according to claim 9, characterized in that at the ends of the supporting rods mounted woven or non-woven material impregnated with cement or gypsum mortar.  21. The building structure with a protective layer according to claim 9, characterized in that an additional support sleeve is mounted on a shaft portion located in the body of the load-bearing part of the structure.  22. The building structure with a protective layer according to claim 9, characterized in that on the surface of the bearing part of the structure, support tables are discretely mounted on which the insulation panels are supported.  23. The building structure with a protective layer according to claim 9 or 22, characterized in that the width of the supporting tables is 1/2 - 2/3 of the thickness of the insulation panels.  24. Building construction with a protective layer according to claims 9 and 22, characterized in that plates on the supporting tables are mounted of heat-insulating material, the width of which is equal to the thickness of the insulation panel supported on them.

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