RU171472U1 - FOLDABLE ASSEMBLY HINGE ASSEMBLY - Google Patents

Abstract

The utility model relates to folding frame tent structures, namely to their hinged nodes, and can be used as an element of camping equipment (for example, tents for tourists, fishermen, hunters), technical equipment for outdoor work (for example, frame structures for welders, cable men and other technical workers), sales equipment (for example, stalls) and other shelters. The hinged assembly of a folding structure contains load-bearing rods interconnected by a fixing element. In the fixing element, rotation axes are installed passing through the holes made in the rods. The rods are made of glass composite material and equipped with metal nozzles in the form of tubes. The internal cross-sectional shape of the tubes repeats the external cross-sectional shape of the rods. Through holes are made in the walls of the tubes, assembled coinciding with the holes in the rods. The utility model improves the strength of the hinge assembly. 3 s.p. f-ly, 4 ill.

Description

The utility model relates to folding frame tent structures, namely to their hinged nodes, and can be used as an element of camping equipment (for example, tents for tourists, fishermen, hunters), technical equipment for outdoor work (for example, frame structures for welders, cable men and other technical workers), sales equipment (such as stalls) and other shelters.

A hinge assembly of a folding structure is known from the prior art, comprising bearing rods of glass composite material (fiberglass) interconnected by a fixing element (http://www.mavericktent.ru/articles/?article=242). In the known device, the locking element is made by injection molding of impact-resistant thermoplastic plastic and is fixed at the ends of the rods by gluing. The disadvantages of the known device are the complexity of the design and manufacture of cast fixing elements, in addition, the use of plastic creates technical limitations for the structure as a whole, in particular in terms of strength, temperature conditions of use, wear resistance, etc.

The closest in technical essence to the claimed utility model is a hinged node of a folding structure containing carrier rods interconnected by a fixing element with rotation axes installed in it and passing through holes made in the rods (patent RU 2238383, class Е04Н 15/28, publ. . 10/20/2004). In the known device, the rods are made in the form of tubes of a solid and durable, but relatively expensive material - duralumin or carbon fiber. A transverse hole drilled in such a rod practically does not weaken it and does not affect the strength of the connection. However, the known device does not provide for the possibility of using rods made of glass composite material, since the transverse hole drilled in such a material with a fibrous structure significantly weakens the joint, where the glass composite begins to crack and split under load, which does not provide a reliable and durable connection.

Thus, a technical problem is the creation of a hinged assembly of a folding structure with low cost, which allows the use of relatively cheap glass composite material for the manufacture of rods, in particular, fiberglass reinforcement that is easy to manufacture and very fracture-resistant, while maintaining the strength characteristics and reliability of the structure as a whole.

In the proposed hinged node of a folding structure comprising bearing rods interconnected by a fixing element with rotation axes installed therein and passing through holes made in the rods, the rods are made of glass composite material and provided with metal nozzles in the form of tubes, the internal cross-section of which repeats the external the cross-sectional shape of the rods, and through holes are made in the walls of the tubes, assembled coinciding with the holes in the rods. The locking element is preferably made in the form of a metal bracket or clamp, and the inner cross section of the nozzles and the outer cross section of the rods are round in shape.

The combination of the above features allows you to solve the above technical problem and get a technical result, which consists in increasing the strength of the hinge node.

In FIG. 1 shows a glass composite rod with a metal nozzle mounted at its end;

in FIG. 2 - glass composite rod with a metal nozzle installed in its central part;

in FIG. 3 - the proposed hinge assembly with a locking element in the form of a metal bracket;

in FIG. 4 - the proposed hinge assembly with a locking element in the form of a metal clamp.

The proposed hinged node of a folding structure consists of bearing rods 1 of a glass composite material and a fixing element 2 connecting them in the form of a metal bracket or clamp. In the element 2, the axis of rotation 3 is mounted movably or motionless, passing through the transverse holes 5 made in the rods 1. To avoid delamination of the glass composite material at the connection point around the holes under the axis 3, the rods 1 are equipped with metal nozzles in the form of tubes 4 of a metal hollow profile ( e.g. steel or aluminum). The internal cross-sectional shape of the tubes 4 (preferably round) repeats the external cross-sectional shape of the rods 1, which provides a fairly dense installation. Through holes 5 are made in the walls of the tubes 4, assembled coinciding with the holes in the rods 1. For simplicity, the transverse holes 5 are drilled directly through the glass composite rod 1 in the installed nozzle tube 4 through the glass composite rod 1. Axis 3 passing through the holes 5 securely fixes the nozzle tube 4 on the rod 1 .

As the supporting rods 1 they use relatively cheap, very fracture-resistant and manufactured in the industry fiberglass reinforcement. As the tubes 4 nozzles use a hollow metal profile, manufactured in industry in a wide range of shapes and sizes, mainly from aluminum or steel alloys. Nozzles are made by cutting (sawing) this profile into parts of a given length. As the fixing element 2 use staples and clamps made in industry from steel by the method of cutting and pressing. As the axles 3, metal cylindrical axes are used, in particular, studs, screws, bolts, rivets, etc., available in a wide assortment.

In FIG. 3 shows a hinged unit for connecting two glass composite rods 1, reinforced at the ends by nozzles 4 and movably connected to each other by means of a fixing element 2 in the form of a steel bracket. The rods 1 are connected to the element 2 by a cylindrical articulation using common movable axes 3 in the form of steel rivets.

In FIG. 4 shows the hinge assembly of two glass composite rods 1, reinforced by nozzles 4 and movably connected to each other by means of a fixing element 2 in the form of a steel clamp. The element 2 is fixedly mounted in the central part of one rod 1 using a common fixed axis 3 in the form of a steel rivet, and the end of the second rod 1 is movably connected to the element 2 by a cylindrical hinge using a common movable axis 3 in the form of a steel rivet.

Due to its design, the proposed hinge assembly can be manufactured using any glass composite materials and at the same time is characterized by high wear resistance, reliability and durability. All elements used for its manufacture are manufactured in industry and are widely available on the market, which makes it possible to manufacture a device with a relatively low cost.

Claims (4)

1. The hinged node of a folding structure comprising bearing rods interconnected by a fixing element with rotation axes installed in it and passing through holes made in the rods, characterized in that the rods are made of glass composite material and provided with metal nozzles in the form of tubes, the internal shape of the transverse cross-sections of which follow the external cross-sectional shape of the rods, and through holes are made in the walls of the tubes, assembled coinciding with the holes in the rods. 2. The hinge assembly according to claim 1, characterized in that the fixing element is made in the form of a metal bracket. 3. The hinge assembly according to claim 1, characterized in that the fixing element is made in the form of a metal clamp. 4. The hinge assembly according to claim 1, characterized in that the inner cross section of the nozzles and the outer cross section of the rods are round.

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