SU857385A1 - Industrial building suspended roof - Google Patents

Description

(54) TEMPLE INDUSTRIAL COATING The invention relates to construction and can be used in the construction of long-span coatings for industrial buildings, including with overhead crane equipment. A well-known coating is known, which is a cylindrical membrane-beam system, which is stabilized by stiffeners 1. The lack of coating is low rigidity, which does not allow it to be used for industrial buildings with suspended equipment. The closest to the proposed technical essence is the hanging floor of the production building, which includes a support system of straight linear longitudinal and transverse elements and sprengels and attached to them trusses with upper flexible and lower ones themselves and braces and the membrane 2. The disadvantage is inability to use flexible curvilinear lower trusses with a non-skewed grating

BUILDING as a crane runway. In addition, the convex shape of the upper sections prevents the membrane from being incorporated into the carrier system of the coating, which leads to a decrease in the total fluid and an increase in the material consumption of the coating. The purpose of the invention is to increase the rigidity of the coating and reduce the metal intensity while ensuring the minimum required building area. The goal is achieved by the fact that in viscous coating, including a support system of straight linear longitudinal and transverse elements and sprengels and hanging trusses attached to them with upper flexible and lower ones themselves and diagonals and a membrane, lower along with and braces of each tempering farm made rigid, and the upper flexible with rigidly connected to the membrane, with the sprengeli rigidly combined with transverse or longitudinal elements of the supporting system in the areas of their connection and rigidly attached to the membrane and the top of the farm itself. Hard bottom of the farm can be made in the form of crane tracks.

FIG. 1 shows the coating in the plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one.

The coating comprises a support system consisting of straight linear longitudinal elements 1 and transverse elements 2.

Curved continuous sprenges 3 coatings are made of steel strip and work in combination with either longitudinal 1 or transverse 2 rigid elements of the support system.

The coating is made with a sagging membrane 4, forming a surface of zero or structurally negative Gaussian curvature and stabilized by lower trusses 5, the upper along with 6 of which is made flexible, for example, from steel strip. The bracing 7 and the lower cab 8 of the truss are rigid, and the bracing is from the corners, and the lower sa is made of I-beams with parallel shelves and is a continuous stiffening beam that can serve as crane runways for the suspended equipment.

The vase trusses 5 can be located both in the transverse and in the longitudinal direction, depending on the technological requirements.

In the case of the longitudinal arrangement of the girder trusses 5, the sprengels 3 are rigidly connected with the transverse elements 2 of the supporting system in the zones of their connection with the longitudinal elements 1 of the supporting system.

In the case of the lateral arrangement of the girder trusses 5, the sprengels 3 are rigidly connected with the longitudinal elements 1 in the zones of their connection with the transverse elements 2 of the support system.

The membrane 14 of the coating is located on the upper 6 farms itself, rigidly attached to them and simultaneously serves as a protecting and supporting structure, perceiving the entire overlying uniformly distributed load (self-weight of the membrane, insulation, snow, etc.). In addition, the membrane is partially included in the work of the upper part of the farms on crane and other loads applied directly to the trusses.

In turn, the gears 3, rigidly attached to both the membrane 4 and the upper along the 6 upper trusses, work on stretching under the influence of expansion forces in the membrane and in the upper farms.

The transverse rigid elements 2 of the support contour can be made in the form of a beam, if it is possible to install support posts 9 for perceiving vertical reactions from hanging trusses, or as a powerful retractor truss, if an opening is required (Fig. 2). In the latter case, the top of the backyard farm works for two

type of force: compressive force from the work of the farm gate in the vertical direction under the influence of vertical loads and pressure of the operating force of the system Shgfengel - upper along with the farm tail under the influence of the expansion forces of the coating design (Fig. 2).

The longitudinal rigid elements 1 of the support contour can also be made either as a continuous curvilinear beam, repeating the contoured surface of the coating and supported by intermediate supports 10, or as a powerful back arch, or a 1 K diaphragm beam if an opening is required (Fig . four).

The motion of overhead cranes with this design scheme is organized both along and across the head trusses (Fig. 3).

When two cranes along the trusses, the lower safarmes simultaneously serve as rolling for krav.pov and are made in the form of ceramic beams of I-section with parallel shelves With the aim of being able to replace; rolling paths according to their wear. The fastening of the lower end of the sa 8 to the trusses of the trusses and the mounting joints along the length of the sa are performed on high-strength bolts.

When the cranes are moved across the truss trusses 5, the rolling paths 12 are attached to the nodes of the lower trusses and the latter are made of rolling elements of a cross section.

In the same case, the hanging fer.ma .5 can be used. completely made of flexible elements - steel (olss whether the ropes and tentatively prefixed in order to prevent compression in the truss elements during its load x.

The membrane 4 enters the installation site in the form of rolls with the required length of the canvases and the width corresponding to the step of the hive trusses.

A cover can be made by mounting flat hanging trusses and then laying out the upper ponds of the trusses and attaching the upper limbs to the bottom panels or creating spatial blocks of trusses on the ground with the trusses laid along the upper ones and attached to them membrane and subsequent block installation of the coating.

Mounting by spatial units is considered more technological.

Claims (2)

A rational spatial design of the hang of a large-span coating for industrial buildings, the use of an extended membrane surface, as well as the principle of combining functions in all major structural elements in combination with the possibility of using the flow-block method of installation, reduce the costs of steel for coating up to 25%. , and the complexity of installation, taking into account roofing work, is 2-2.5 times. The membrane can be made of corrosion-resistant steel that does not require a waterproofing device. In this case, heat protection can be performed by hanging or spraying an effective lightweight insulation onto the bottom surface of the membrane. At the same time, the loads on the coating and on the structure as a whole are significantly reduced, which leads to an additional reduction in steel consumption, as well as to a decrease in the labor intensity of installation due to roofing. Claims of the invention 1. The visceral floor of a production building, including a support system of straight linear longitudinal and transverse elements and sprengel and attached to them trusses with upper flexible and lower themselves and braces and a membrane. characterized by the fact that, in order to increase the rigidity of the coating and reduce metal consumption while providing the minimum required building area, the lower and crests of each of the temples are rigid, and the upper is flexible with the membrane, while the chips are rigidly combined with transverse or longitudinal elements of the supporting system in the zones of their joining and are rigidly attached to the membrane and upper along the upper trusses. 2. A suspension coating according to claim 1, characterized in that the rigid lowermost self-supporting trusses are made in the form of runways. Sources of information taken into account in the examination 1. Morozov, AP and others. Spatial structures of public buildings. L., Stroyizdat, 1977, p. 148. 2. USSR Author's Certificate No. 238118, cl. Е 04 В 7/14, published. 1969.