RU2473755C1 - Building element - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: building element comprises an inclined channel formed in the concrete body, which protrudes at least to one of elements faces, designed for fixing a lifting and an assembling accessory and formed by monolithing of an embedded part into the concrete body, besides, the channel is arranged with the thread on its working surface.

EFFECT: simplified design, higher safety and efficiency in assembly of buildings and structures, provides for considerable metal saving.

3 cl, 7 dwg

Description

The invention relates to building structures, mainly to reinforced concrete panels, blocks and slabs for various purposes, and can find application in civil and industrial construction.

Reinforced concrete structures are known, for example, floor slabs in which sling loops are monolithic in the concrete body of the panel (see "Typical Structures, Products and Components of Buildings and Structures". Series 1.141-1 "Multi-hollow reinforced concrete floor slabs. Vol.66." Pre-stressed panels with round voids with a length of 6280, 5980, 5680, 5080 and 4780 mm, widths of 1790, 1490, 1190 and 990 mm, reinforced with high-strength reinforcing wire of class Bp-II ". Designed by TsNIIEP" Housing "with the participation of NIIIZhB, approved and put into effect from 04.15.86. Order No. 93 of March 18, 86, drafts 1.141-1.66.102). Similar sling loops are provided not only with reinforced concrete structures, but, for example, with concrete blocks for basement walls (see GOST 13579-78, p.14).

Reinforced concrete slabs are known, equipped with closed sling loops covering reinforcing elements placed in a reinforced concrete slab (see "Typical building structures, products and units." Series 3.400-7 "Unified mounting loops for lifting precast concrete and reinforced concrete products". Issue 1 / 87, developed by PI No. 1 and NIIIZhB and approved by the State Construction Committee of the USSR on 01.07.88, protocol dated 03.03.88 No. ACh-9, drafts 3.400-7.1 / 87-SM7, 3.400-7.1 / 87-SM6).

The main disadvantage of the described structures is the significant metal consumption for the device of the sling loops.

Known load gripping device for the manufacture and transportation of concrete and reinforced concrete products, containing a hollow body with a conical base and grooves for working bodies, pivotally mounted in it with the possibility of placement behind the generatrix of the housing, gripping levers and a lock working position of the levers. The gripping levers are supported along the entire length on the housing and are spring-loaded with the possibility of interaction with the working position lock. The latch has a wedge-shaped shape and is made with the possibility of moving along the vertical axis of the housing under the action of gravity and a return spring (see call for invention of the Russian Federation No. 94020214, IPC ⁶ B66C 1/66, 1996).

The disadvantage of this solution is the complexity of the design, the need to use various additional materials, namely a rubber cone-shaped cover made with walls of variable thickness.

Known grip for concrete products with a hole containing a hollow body with a lower cylindrical part, and the upper part is a guide for a lifting rod with a T-shaped gripping head (USSR Author's Certificate No. 981187, class 3 B66C 1/66, 1982).

The disadvantage of this device is the design complexity.

A reinforced concrete structure is known, including a concrete body and reinforcement placed in it, characterized in that it is equipped with sling holes, through each of which a rod of working reinforcement with an estimated cross-sectional area passes (see RF patent No. 221808, IPC ⁷ E04C 2/06, 2004 g.).

The disadvantage of this device is the need to make holes above the reinforcement, having a sufficiently large size to ensure input under the reinforcement of the lifting elements during installation and transportation. In addition, for the manufacture of these products, it is necessary to maintain strictly defined design dimensions of the reinforcement section, which is not always economically feasible.

A known building element, including channels formed in the body of concrete, mutually intersecting at an acute angle, overlooking its upper face and designed to secure the lifting and mounting devices. One of the channels is a vertical, larger diameter. The channels are formed by monolithic in the concrete body of the embedded part from two tubes, the lower ends of which are plugged, on the upper there are removable plugs, and on the sides there are tides with holes for fixing reinforcing elements (see RF patent No. 2013507, IPC ⁵ E04C 1/00 , 1994). This decision was made as a prototype.

The disadvantage of the prototype is the complexity and inefficiency of the design, providing in the building element receiving devices for lifting. This design does not provide reliable engagement of the lifting device and, as a result, is quite dangerous when moving to a height.

The problem solved by the invention is to simplify the design, increase safety and performance during the installation of buildings and structures.

The problem is solved due to the fact that in the known building element containing the inclined channel formed in the concrete body, facing at least one of the faces of the element, designed to secure the lifting and mounting device and formed by monoling into the concrete body of the embedded part, in accordance with a utility model, the channel is threaded on its working surface.

The angle of the channel is from 30 to 45 ° to the transverse reinforcing bar of the building element.

The building element is configured to retrieve the embedded part after its manufacture.

The technical result from the use of the utility model is to simplify the design, increase safety and performance during the installation of buildings and structures. In addition, significant metal savings are provided.

The execution in the building element of an inclined channel with a thread on its working surface allows us to simplify the construction of the building element and at the same time provide increased safety and performance during the installation of buildings and structures. This design can significantly increase metal savings in the manufacture of building elements.

The presence of a channel with a thread on the working surface allows you to screw studs and bolts, eyebolts into the threaded hole and remove these elements after installing the building element in place. The thread in the channel of a concrete building element, like the thread in metal, can carry the load and provide a reliable connection of the lifting and mounting device (anchor bolt) with the building element, which allows safe transportation of the building element.

Figure 1 is a General view of a building element.

Figure 2 is a view A of Figure 1 on an enlarged scale.

Figure 3 - building element, side view.

Figure 4 is a view In figure 2 with a embedded part.

5 is a building element, a top view.

6 is a view C of figure 5.

Fig.7 is a view A of Fig.1 on an enlarged scale, with a mounted device for lifting and mounting and a sling element.

The building element 1 (for example, a reinforced concrete wall panel) contains an inclined channel 2 formed in the concrete body, facing at least one of the faces 3 of the element, for example, the upper face (see FIGS. 1, 2). Channel 2 is designed to be fixed in the building element 1 of the device 4 lifting and installation (see Fig.7). Channel 2 is formed by embedment into the concrete body of the embedded part 5 (see figure 4). As a embedded part 5 can be used, for example, a pin, which allows the channel 2 to be threaded on its working surface 6 (see figure 4).

The building element is made in the usual way. Before pouring concrete into the mold, the embedded part 5 (a stud with a solid thread and end recesses for a socket wrench) is fixed to the reinforcement using a knitting wire 7 to the transverse 8 reinforcing bar rigidly connected to the longitudinal horizontal 9 and vertical 10 reinforcing reinforcing bars (see Fig. .2, 4).

To prevent chipping of the upper part of the concrete of the building element and thread crushing in the channel 2 during its lifting and transportation, the stud 5 is installed at an angle of ~ 90 ° to the calculated axis of the mounting sling, which determines the angle of inclination of the channel in the range from 30 to 45 ° to the transverse reinforcing bar building element.

After pouring, hardening and removing the formwork, the stud 5 is unscrewed from the building element, due to the fact that the concrete adjacent to the stud takes the form of its thread, a channel 2 is formed in the building element 1 with a thread on its working surface 6.

To lift, transport and install the building element in place of the stud 5, the lifting and mounting devices 4 are screwed into the channel 2, for example, a mounting anchor bolt (eye bolt) corresponding to the length and diameter of the channel in the building element (see Fig. 7), to which a sling cable 11 may be attached.

The presence of a channel with a thread on the working surface allows you to screw studs and bolts, eyebolts into the threaded hole and remove these elements after installing the building element in place. The thread in the channel 2 of the concrete building element, as well as the thread in the metal, can carry the load and provide a reliable connection of the lifting device 4 (anchor bolt) with the building element, which allows safe transportation of the building element. After moving the building element, the anchor bolt 4 (eye bolt) is unscrewed, and the channel can be filled with cement mortar.

Experimental tests have shown that the use of the proposed building element during the installation of buildings and structures allows us to provide convenience during installation and dismantling of the anchor bolt - lifting devices, which increases safety and labor productivity. Due to the simplicity of the design of the device for lifting and mounting, its clear fixation in the body of the building element, the slinging operation is simplified, the reliability and safety of the slinging is increased. This significantly reduces the time for the operation of slinging and dismantling the lifting device. Due to the small size of the embedded part, as well as the possibility of its extraction from the building element after its manufacture, the metal consumption of the building element is reduced.

The invention can be used in the manufacture of building elements of various sizes and shapes, while excluding chips of concrete in the place of monolithic embedded parts.

A building element can be made in any conditions using well-known technologies and materials.

Claims (3)

1. A building element containing an inclined channel formed in the concrete body, facing at least one of the faces of the element, designed to secure the lifting and mounting device and formed by embedding the embedded part in the concrete body, characterized in that the channel is threaded on it work surface. 2. The building element according to claim 1, characterized in that the angle of inclination of the channel is from 30 to 45 ° to the transverse reinforcing bar of the building element. 3. The building element according to claim 1, characterized in that the building element is made with the possibility of extracting the embedded parts after its manufacture.

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