RU2649995C1 - Joint of rods of spatial framework - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, in particular to joint rods of a spatial construction. Proposed joint assembly of rods of a spatial framework contains two bolted clamping plates and tips of rods located between them radially in plan. Tip of each rod has a cylindrical surface sandwiched between the cylindrical surfaces of two biscuits located on the pressure discs.

EFFECT: technical result of the proposed invention is to ensure the manufacturability of manufacturing parts of the joint assembly of the rods of the spatial frame while ensuring the possibility of its use when creating a large number of forms of structures.

1 cl, 2 dwg

Description

The invention relates to the field of construction, in particular to a nodal connection of rods of a spatial structure.

A known analogue is the node connecting the rods of the spatial structure, RF patent No. 2087634, 08/20/1997, in which the elements are connected to each other by bolts using the corner tips and lining, characterized in that the corner lugs are attached to the ends of the braces, and lining - to the ends of horizontal elements.

The disadvantage of the analogue device is the low manufacturability of manufacturing parts of the spatial frame, due to the small unification of the connecting parts. To assemble the assembly, angled tips and pads are necessary, if necessary, changes in the angle of connection of the elements, it is necessary to produce angular tips that are unique for each angle value. The manufacture of tips and pads is characterized by low manufacturability, as it requires a large number of machining operations.

Also known is the knot of connecting the rods of the spatial frame - USSR author's certificate No. 1392220, 04/30/1988, selected as a prototype of the proposed device, including a central coupling bolt, clamping parts and the ends of the rods with spherical heads located radially between them, characterized in that In order to increase reliability, reduce transport costs and reduce installation time, the clamping parts are made with spherical holes on surfaces facing one another and radial rezyami and further bolted placed between the slits.

The disadvantage of the prototype is the low manufacturability of manufacturing parts of the spatial frame. Low manufacturability is due to the complexity of manufacturing a spherical head and spherical holes of the clamping parts. It is possible to produce these parts either by machining by turning and milling, which is low productivity, or by casting, which is energy-consuming and low productivity in the case of manufacturing parts from aluminum alloys.

The technical result of the invention is to ensure the manufacturability of the manufacturing parts of the node connecting the rods of the spatial frame while ensuring the possibility of its use to create a large number of structural forms.

The solution to the technical problem in the node connecting the rods of the spatial frame, containing two clamping discs pulled together by bolts and the rod tips located between them radially in plan, is achieved by the fact that the tip of each rod has a cylindrical surface sandwiched between the cylindrical surfaces of two crackers located on the pressure discs.

Figure 1 shows the node connecting the rods of the spatial frame.

Figure 2 shows a fragment of the node connecting the rods of the spatial frame.

The junction of the rods of the spatial frame contains clamped disks 2 tightened by bolts 1 and the tips 3 of the rods 4 located between them. The tips 3 of the rods 4 have a cylindrical surface 5 that is sandwiched between two crackers 6 located on the pressure disks 2.

Consider an example of a specific implementation of the node connecting the rods of the spatial frame in its specific application. The node for connecting the rods of the spatial frame, considered in this example, serves as the supporting frame of the translucent roof of the building, which is covered with double-glazed windows 7. All parts of the device, except for the bolts, are made of aluminum alloy. The clamping discs 2 are made by waterjet cutting. Tips 3, rods 4 and crackers 6 are made by extrusion. The rods 4 are made in the form of tubular profiles of rectangular cross section. In the clamping discs 2 there are grooves 8, and in the tips 3 and crackers 6 there are holes for bolts 1. On the lower clamping disc 2, in the region of the grooves 8, lower crackers 6 are installed, on the cylindrical surface of which are installed the tips 3. On the cylindrical surface 5 tips 3 install the upper crackers 6 and press on top of the upper clamping disk 2. After that, the entire structure is pulled together by bolts 1 installed in the grooves of the clamping discs 2 and the holes in the tips 3 and crackers 6. After SETTING required inclination angles α 1 rods 4 bolts are tightened. After that, the structure is mounted on the building and double-glazed windows 7 are installed on it.

The device has a high manufacturability in comparison with the prototype, since most of the parts are made by extrusion or by waterjet cutting, the parts do not have complex spherical surfaces. The device allows you to set the required angles of inclination α of the rods 4 immediately before the final assembly. Due to this, the minimum set of components allows you to create a large number of structural forms.

  The achievement of the technical result in the proposed device is due to the fact that the tips of the rods have a cylindrical surface that mates during assembly with the cylindrical surfaces of two crackers located on the pressure discs.

Claims (1)

The junction of the rods of the spatial frame, containing two clamping discs tightened by bolts and rod tips located between them radially in plan, characterized in that the tip of each rod has a cylindrical surface sandwiched between the cylindrical surfaces of two crackers located on the clamping discs.

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