RU93108U1 - TABLE UNLOADING ANCHOR DEVICE - Google Patents

Abstract

 1. Anchor device for unloading the support table, including a steel support assembly installed in the end wall panel, insulation, characterized in that the function of the support assembly is performed by a structure comprising an anchor sheet, vertical stiffeners, a support sheet, a contact angle with holes, a support angle under the plate overlapping, supporting rib, anchor strands, washers, nuts, supporting washers, thermal lining. ! 2. The device according to claim 1, characterized in that the unloading device is closed in the vertical and horizontal seam of the wall panels. ! 3. The device according to claim 1, characterized in that the thrust corner has holes for anchor rods, that anchor rods include washers, nuts and thrust washers. ! 4. The device according to claim 1, characterized in that the function of the insulation is performed by thermal lining, made in the form of a box filled with effective insulation material. ! 5. The device according to claim 1, characterized in that the open part of the reference corner inside the living room is lined, and on the street side of the wall panel, the anchor device is closed with thermal lining.

Description

"Anchor device for unloading the supporting table" refers to the field of construction, namely, to the structures of the support nodes for interfacing floor slabs with load-bearing wall panels and can be used for overhaul and reconstruction of buildings.

For a long time there is a problem of ensuring the safety of operation of large-panel residential buildings of the 1-335 series with an incomplete frame. One of the main technical defects of houses of the 1-335 series with an incomplete frame is the design of the support nodes for interfloor slabs located at the ends of the building with the supporting metal tables installed in the wall panels during their manufacture [6], [7].

Known Anchor device for unloading the support consoles (9), which contains an anchor sheet, vertical stiffeners, a support sheet, a contact angle with holes, a support angle for running, two anchor bands, washers, nuts and a support washer. The known design of the device unloading support consoles perceives the load from the interfloor run.

This device cannot be used for end walls, as no run is provided for at the end of the building with a typical design, and the plate is supported on a steel table that performs the same function as the steel consoles from channel # 12 in this device. The transfer of force from the cords to the backing sheet, as provided in the analogue, is also impossible, because the level of the outlet openings for the cords is located above the horizontal seam of the panels on which the supporting sheet is laid.

Closest to the proposed utility model in technical essence are the design of the support unit according to the standard series 1.335 [7] in wall panels for the ends of the building.

The design of the closest analogue (Figure 1) is a steel table of two steel sheets 1, embedded in a reinforced concrete vertical rib 2 of the wall panel. The table is closed with insulation 3 and mortar 4. The load from the floor slab 5 is transferred to the metal tables, then to the reinforced concrete rib of the supporting wall panel 6.

The disadvantage of the above-described supporting unit, which we took as the closest analogue, is the decrease in strength after prolonged use in combination with the inaccessibility to the inspection of the interface between the floor slabs and the external load-bearing wall panels of the end walls. The decrease in strength is due to the fact that the table, crossing the insulation, being a heat-conducting inclusion in the design of the wall panel, is a hotbed of condensation that causes corrosion. When manufacturing a panel, a steel table is closed into a vertical reinforced concrete rib, which is also a heat-conducting inclusion of a three-layer panel, which is sometimes called the “cold bridge”. The presence of corrosion is inevitable in all nodes without exception, where the tables are located, while the above tables, as a rule, are affected by corrosion by 15-35% of the cross-sectional area [2]. Condensate not only reduces the value of strength characteristics, but also leads to a violation of performance indicators, penetrating the apartment through the finishing layers.

The proposed utility model “Anchor device for unloading the supporting table” solves the problem of restoring the strength of the interface between the floor slabs and the external load-bearing wall panels of the end walls by transferring the load from the floor slab directly to the wall panels using anchor rods.

The technical result that allows to solve this problem is:

- restoration of the strength of the support node of the slab,

- reducing the complexity and time of work,

- maintaining the required quality of operational characteristics,

- improvement of thermal insulation of the support node of the floor slab.

To achieve the technical result, the “Anchor device for unloading the support table” contains an anchor sheet, vertical stiffeners, a support sheet, a support rib, a contact angle with holes, in which the level of the outlet openings for the anchor rods is located above the existing horizontal seam of the wall panels, a support corner under floor slab, two anchor bands, including washers, nuts and a support washer, thermal lining. To ensure the possibility of transferring the vertical component of the force of the anchor strands to the level of the horizontal seam of the panels, an anchor sheet, vertical stiffeners, a support sheet, and a support rib are provided.

New significant features:

anchor sheet

vertical stiffeners,

support sheet

stop corner with holes for anchor ties,

supporting corner under the slab,

supporting rib

anchor bands

washers, nuts,

support washers

thermal overlay,

These new essential features allow you to get a technical result in all cases to which the requested amount of legal protection. Due to the support angle available in the device under the floor slab and the support washer, anchor ties are attached to the inside of the wall panel, i.e. inside the living room. Using the anchor sheet, vertical stiffening ribs, a support sheet, a support rib, a contact angle with holes for anchor rods, washers and nuts, fix the ends of the anchor rods from the outside (street) side of the end wall panel. Due to the thermal lining, which is a box specially made taking into account the requirements for the architectural solution of the facades, filled with effective insulation material, mounted on the wall on top of metal products, the formation of a “cold bridge” is excluded. Mineral wool is the insulation material. It is a fairly durable, strong material that performs well not only the important function of heat conservation, but also eliminates the formation of condensate on metal products inside the wall panel.

Due to this design, the unloading of the existing support table of the interface unit of the floor slabs with the wall panels occurs due to the transfer of the compression load to the vertical load-bearing ribs of the wall panels using anchor rods. The results of the calculations for local compression (collapse) of the vertical bearing ribs of reinforced concrete wall panels show that the total compression pressure from the influence of the “Anchor device for unloading the supporting table” does not exceed the design strength of concrete. With the design grade of concrete for M200 wall panels (concrete class B15), the results of instrumental examinations in May 2009 made it possible to determine the actual strength of concrete in the range from 237 kgf / cm ² (23.7 MPa) to 266 kgf / cm ² (26.6 MPa ), which exceeds the design M200 (B15). Therefore, the actual compression pressure from the impact of the anchor device does not exceed the actual strength of the concrete.

Together, all the features made it possible to create a technical solution that surpasses the closest analogue in technical result. An indicator of the technical result is the technical effect, which consists in improved, compared with the closest analogue, the work of the support node of the floor slabs; reduction of labor input and terms of work; restoration of the strength of the interface between the floor slabs and the external load-bearing wall panel; maintaining the quality of operational characteristics, improving thermal insulation.

Materials explaining the essence of the "Anchor device for unloading the support table":

Figure 1 presents a drawing of the closest analogue.

Figure 2-6 presents "Anchor device unloading the support table" in the form of drawings and diagrams:

Figure 2 - Anchor unloading support table.

Fig. 3, 4 - assembly for installation of the Anchor device for unloading the support table.

5 is a diagram of the temporary insulation of the mounting nodes.

6 is a General layout of the anchor device vertically of the front facade. The positions in figure 2-5 indicate:

1. Anchor sheet

2. vertical stiffeners,

3. backing sheet,

4. a persistent corner with openings for anchor cords,

5. support corner under the floor slab

6. supporting rib,

7. anchor bands,

8. nuts, washers,

9. thrust washers,

10. thermal overlay.

“Anchor device for unloading the support table” consists of the anchor sheet 1, vertical stiffeners 2, the support sheet 3, the contact angle with holes for anchor rods 4, the reference angle under the slab 5, the support rib 6, the anchor rods 7, nuts, washers 8, thrust washers 9, thermal plates 10.

"Anchor device unloading the support table" is carried out in the following sequence.

Before installing the device in the vertical and horizontal seams of the wall panels to the depth of the support sheet 3 and the vertical support rib 6 (figure 2) using an electric hammer perform cleaning from mortar and sealant.

Using an electronic device, the P8200 ferroscan determines the location and diameter of reinforcement in the load-bearing reinforced concrete ribs of the wall panels and the size of the protective layer, drill holes of a certain diameter in the area of the load-bearing ribs of the wall panels. After completion of the preparatory work, install the anchor device for unloading the support table (welded together: anchor sheet 1 with vertical stiffeners 2, support sheet 3 with support rib 6, support corner with holes for anchor rods 4 and support washers 9) in the joints of the panels on the solution using quick-hardening and expanding cements, establish a support corner under the floor slab 5 with anchor bands 7 and fix the bands with nuts 8 (Figure 3) using a torque wrench. The torque when tightening the nuts should create the tension of the anchor strand, providing full unloading of the support table to transfer the load in the support nodes of the floor slabs to the anchor device in the amount of 80% of the calculated value.

After performing the above works, decorative cladding of the supporting corner in the apartment is performed. Install thermal pad 10 on the anchor device on the wall panel to exclude the formation of a "cold bridge".

When implementing a utility model, the required technical result was achieved:

- restoration of the strength of the interface node of the floor slabs with the outer wall panel,

- improving the operation of the support node of the floor slab,

- reducing the complexity and time of work,

- maintaining the quality of operational characteristics,

- improvement of thermal insulation.

A positive point is that there was a real opportunity to carry out work to eliminate the main defect in buildings of the 1-335 series with an incomplete frame without resettling residents in the shortest possible time. This will extend the safe operation of residential buildings of this type.

"Anchor device for unloading the support table" meets the condition of "industrial applicability", because refers to devices widely used in construction for the reconstruction, repair, and modernization of buildings, namely, reference nodes for interfacing floor slabs with external wall panels.

Information sources:

1. Reconstruction and modernization of five-story residential buildings of the first mass series of standard projects. // Guidelines. TsNIIEP homes, M .: 1988. P.51

2.Nelepov A.R. Survey methodology, condition assessment, reliability and reconstruction of buildings. // Monograph. Omsk, Heritage Publishing House, 2002. S 803

3. Mosenkis Yu.M., Nelepov A.R. // Consolidated technical report on preliminary (visual) examinations of residential buildings of series 1-335 in the administrative districts of Omsk in 2006, No. 6490, Omsk. 2006.P.80

4. Mosenkis Yu.M. Justification materials for the allocation of investments to ensure the safe operation of residential buildings of the 1-335 series with an incomplete frame. Technical Report 2006

5. Afanasyev A.A., Matveev E.P. Reconstruction of residential buildings, M., 2008, 234 p.

6. Initial data for the feasibility study of reconstruction of residential buildings of the first mass series as part of the subprogram “Modernization of public utilities infrastructure” of the federal target program “Housing” for 2002-2010. GOU SIBADI, technical report, Omsk, 2007, p.77.

7. Industrial products of a series 1-335. Typical project. Leningrad. 1959.

8. Design and survey work (inspection on residential buildings of the first mass series (1-335 PCs), repair and restoration work on a residential building at the address: 8 Neftezavodskaya St., No. 6490 / 9.1-AS, FDI Omskzheldorproekt - branch OJSC "Roszheldorproject".

9. RF patent No. 83270.

Claims (5)

1. Anchor device for unloading the support table, including a steel support assembly installed in the end wall panel, insulation, characterized in that the function of the support assembly is performed by a structure comprising an anchor sheet, vertical stiffeners, a support sheet, a contact angle with holes, a support angle under the plate overlapping, supporting rib, anchor strands, washers, nuts, supporting washers, thermal lining. 2. The device according to claim 1, characterized in that the unloading device is closed in the vertical and horizontal seam of the wall panels. 3. The device according to claim 1, characterized in that the thrust corner has holes for anchor rods, that anchor rods include washers, nuts and thrust washers. 4. The device according to claim 1, characterized in that the function of the insulation is performed by thermal lining, made in the form of a box filled with effective insulation material. 5. The device according to claim 1, characterized in that the open part of the reference corner inside the living room is lined, and on the street side of the wall panel, the anchor device is closed with thermal lining.