SU947347A1 - Prestrained long structure and method of making same - Google Patents

Description

The invention relates to construction and can be used as a reinforced beam truss type.

Known reinforced beam containing · the body of the beam and reinforcing elements made by horizontal tightening and. transverse elements [1].

The disadvantage of the known beam is the complexity of manufacturing.

Closest to the proposed is a lengthy tensile building structure, including a supporting element and transverse tightening, made in the form of clamps covering it.

A method of performing the above construction includes tightening puffs [2].

The disadvantages of this technical solution are the low stiffness and increased complexity of the beam reinforcement.

The purpose of the invention is to increase the stiffness and reduce the complexity of manufacturing.

The set casing is achieved by the fact that in the strained lengthy building structure, including the supporting one, the element and the transverse puffs 30 are made in the form of clamps covering it, the design is equipped with wedge pairs located above the transverse puffs, and unlike wedges of adjacent pairs are connected by longitudinal puffs.

The method is made of a strained lengthy building structure consisting of a bearing element and transverse puffs made in the form of clamps covering it, including puff tension, this tension of puffs in one direction is produced by moving the wedges while pulling puffs of another direction.

In this case, the tension force of the puffs is controlled by changing the slope of the sliding plane of the wedges in pairs.

In FIG. 1 shows the beam of the truss type with the location of the clamps and twin wedges in the support zone; in FIG. 2 - node I in FIG. 1) in FIG. 3 - construction sprengel type with the arrangement of clamps and twin wedges.

The strained lengthy building structure comprises an upper belt 1, lateral tightenings 2, twin wedges 3, longitudinal tightenings 4, tension nuts 5, support fasteners 6, parts 7 and the plane of sliding of the wedges.

Between the lower edge of the upper belt 1 and the clamps formed by the transverse. puffs 2 and parts 7, located pair wedges 3. Unlike 5 wedges 3 adjacent pairs are connected by longitudinal puffs 4.

The transverse puffs 2 and the longitudinal puffs 4 are provided with nuts 5. One. of a pair of wedges 3 located in the south support zone, fixed support support 6.

When tightening the tension nut 5, located on the horizontal tightening 4, the relative movement of the wedges 3 occurs, which causes the appearance of stress forces in the transverse tightenings 2. The magnitude of the tightening force of the tightenings can be reduced or increased by installing parklines with a different slope of the wedge plane 8 3. The tension of the longitudinal puffs 4 can be carried out by tensioning the transverse puffs 2 by tightening the last tension nuts 5 located on the _.

Depending on the type of construction, wedge pairs can be installed on one or several sides of the element, or are located along the perimeter of its transverse section (pipe type structure 30).

The proposed design and method of its implementation can increase the rigidity of the structure and reduce the complexity of the work on its manufacture. 35

Claims (2)

The invention relates to the construction and can be used as a truss-type reinforced beam. A reinforced beam is known, containing beams and reinforcing elements, by means of horizontal tightening and. cross-section elements t The disadvantage of the known beam is the labor intensity of manufacturing. Closest to the present invention is a strained lengthy building structure comprising a carrier element and transverse fasteners made in the form of clamps enclosing it. The method for making the above structure includes tensioning puff 2. The disadvantages of this technical solution are low rigidity and hard work to strengthen the beam. The purpose of the invention is to increase hardness and reduce the labor intensity of manufacturing. It is achieved by the fact that in a tensioned lengthy building structure, including a supporting element and transverse fasteners made in the form covering its clamps, the structure is equipped with wedge pairs located above transverse fasteners, and the opposing wedges of adjacent pairs are connected by longitudinal puffs. The method is made of a tensioned lengthy building structure, made of a non-drying element and transverse tightening made in the form of clamps covering it, including tensioning pull, this tension for the same direction is produced by moving wedges during tensioning other direction. In this case, the tension force of the puffs is regulated by changing the slope of the slip plane of the wedges in pairs. FIG. 1 shows a beam of the truss type with the arrangement of clamps and paired wedges in the support area in FIG. 2 - node I in FIG. in fig. 3 - structures of the gtrengel type with arrangement of xc looms and paired wedges. The strained lengthy building structure contains the upper one with 1, transverse fasteners 2, paired wedges 3, longitudinal fasteners 4, tension nuts 5, support fasteners 6, parts 7 and the slip plane 8 of wedges. Paired wedges 3 are located between the lower face of the upper sa 1 and the clamps formed by transverse, pulling hooks 2 and parts 7. The opposite wedges of 3 adjacent pairs are connected by longitudinal puffs 4. Transverse fastenings 2 and longitudinal puffs 4 are equipped with nuts 5. One of the pair of wedges 3, located in the support zone, is fixed by a support fixture 6. When tightening the tension nut 5 located on the horizontal tightening 4, relative wrinkles 3 are observed, .ch the stress in the transverse tightenings 2 occurs, The magnitude of the tension of tightening the gzhezhet to be reduced or increased by installing pairs of wedges with different inclination of the slip plane 8 of the wedges 3. The tension of the longitudinal tightening 4 can be carried out by tensioning the transverse tightening 2 by tightening the tension on the last tension nuts 5 Depending on the type of construction, the wedge pairs can be installed on one or several sides of the element, or located along the perimeter of its cross section (pipe type construction). The proposed structure and method of its implementation allows to increase the rigidity of the structure and reduce the laboriousness of the work on its manufacture. Claim 1. Intensive lengthy construction, including a carrier element and transverse fasteners, made in the form of enveloping clamps, characterized in that, in order to increase rigidity and reduce the complexity of manufacturing, the structure is provided with wedge pairs located under the transverse fasteners , and opposite wedges of adjacent pairs are connected longitudinally and tightly. 2. A method for performing a tensioned lengthy building structure consisting of a supporting element and transverse fasteners, made in the form of clamps covering it, including tensioning puffs, characterized in that, in order to increase rigidity and reduce the complexity of manufacturing, tension The same direction is made by moving the wedges while the other end is tightened. 3. A method according to claim 2, characterized in that the pulling force of the puffs is controlled by changing the bias of the slip plane of the wedges in pairs. Sources of information taken into account in the examination 1.Nufriev N, M. Strengthening of reinforced concrete structures about ffi of buildings and structures. L.-M., Publishing house of literature on construction, 1965, p. 205. 2. Yakubovsky B.V. Reinforced concrete and concrete structures. M., Vaia School, 1970, p. 686 (prototype). . ./