RU192895U1 - CRAWLER CHAIN LINK - Google Patents

Abstract

The device relates to links of flexible track chains designed to be installed around the outer periphery of the vehicle tires. The track link contains a transverse element, two side support elements located at opposite ends of the transverse element, the side support elements protruding from the same side of the transverse element and spaced apart to allow placement of a bus between them and two connecting elements. Each side support element has a first part extending across the covered surface of the tire, and a second part facing the sidewall of the tire, said parts being integral with each other, the first part being rigidly connected to the transverse element and the connecting element being mounted on the second part. provides the convenience of repair and manufacturing, reducing the complexity and time spent on their implementation.

Description

The device relates to transport engineering, mainly to wheeled vehicles, namely to the links of the flexible track chains, designed for installation around the outer periphery of the tires of the vehicle.

State of the art

The caterpillar chains that can be mounted with the possibility of removal around the tires of vehicles are known in several different designs, for example, caterpillar chains manufactured by CLARK TRACKS, consisting of connected tracks located on a tire [1]. Such caterpillar tracks can be used to provide better friction and traction between the tires of the vehicle and the ground, especially on wet, slippery or muddy ground, or to increase the load bearing capacity of the vehicle. In logging, such track chains can reduce rutting and thereby reduce the negative impact on the forest environment. Severe harvesting conditions lead to the gradual wear of the track chain elements. Therefore, their periodic maintenance and repair is required.

From the prior art it is known link caterpillar chain, including a transverse element of a curvilinear asymmetric shape, at the ends of which are mounted connecting elements, and on the connecting elements mounted side support elements [2].

This technical solution has several disadvantages. Firstly, the manufacture of the structure involves a relatively large number of welding operations with hard-to-reach spots. Welding of the connecting elements to the transverse element and then to the connecting elements of the side support elements is required. This leads to an increase in the complexity of manufacturing.

In addition, for the manufacture of the transverse element, it is necessary to carry out the operation of bending the profile and the presence of specialized equipment with bending dies. Since on vehicles, in particular on forestry machines, tires can have different widths (for example, 600 mm, 650 mm, 700 mm, 710 mm, 750 mm), separate bending dies will be required to produce a transverse element for tires with different widths .

Another drawback of the technical solution is the difficulty of applying the quenching of the transverse element of the installation for heating by high-frequency currents (high-frequency installation). This is due to the fact that during the hardening process it is difficult to maintain the same circumferential clearance between the inductor and the transverse element due to its asymmetric curvilinear shape. Different circumferential clearance leads to uneven heating and, as a consequence, to deformation of the transverse element.

The use of an HDTV installation would ensure high performance of the hardening operation, minimal warping of the transverse element, and elimination of the descaling operation. In addition, the use of an HDTV installation would help increase the operational strength of the transverse element. This is achieved due to the fact that compressive stresses appear on the surface due to the formation of a martensitic structure, and also due to the fact that hardening is carried out only on the outer layers of the metal, leaving the inner layer softer.

A design disadvantage is that the manufacture of a transverse element requires the use of a profile with a complex shape. The production of such a profile is laborious.

In the operation of the track chain, the replacement of connecting elements is most often required due to wear. To accomplish this, the described construction will also require the removal of the side support element, and after the installation of a new connecting element, its reassembly. This increases the complexity and inconvenience of repair work, and also reduces their productivity.

A track link is known including a cross member, two side support members and two connecting members attached to the cross member at its opposite ends, the support and connecting members protruding from the same side of the cross member and spaced apart to allow tire insertion between the support members elements [3].

The disadvantage of the technical solution is the complexity of manufacturing associated with the need to produce many different parts, requiring a large number of production operations, and their combination in a single design.

In addition, the presence of many connections of various parts reduces the reliability of the design.

The closest analogue, which was chosen as a prototype, is a track link made with the ability to connect with many links of the track chain to form a flexible track chain designed to be installed around the outer periphery of vehicle tires, containing a transverse element, two side support elements, located at opposite ends of the transverse element, the side support elements protruding from the same side of the transverse element and spaced to provide the possibility of placing the tire between them and two connecting elements located at opposite ends of the transverse element, while the transverse element extends across the covered surface of the tire [4].

The disadvantage of the technical solution is that the design involves a significant amount of welding work with hard to reach places. This leads to an increase in the complexity of manufacturing.

In addition, for the manufacture of the transverse element, it is necessary to carry out an additional operation of bending the profile, while for tires with different widths, corresponding bending dies will be required.

Another disadvantage of the technical solution is the complexity of the application for hardening the transverse element of the HDTV installation due to the curvilinear asymmetric shape of the transverse element.

A design flaw is also that the manufacture of a transverse element requires the use of a profile with a complex non-standard shape. This is inconvenient in the conditions of single and small-scale production (which are usually repair production), since it is problematic to ensure the presence of a profile with a non-standard shape, and its production requires specialized equipment.

In addition, the replacement of the connecting element requires the removal of the side support element, and after installing a new connecting element, its re-installation. This increases the complexity and inconvenience of repair work, and also reduces their productivity.

Utility Model Disclosure

The technical result, the achievement of which the claimed utility model is aimed, is to ensure ease of repair, reducing the complexity and time spent on its implementation. This is achieved in that the replacement of the connecting element does not require removal of the side support element.

In addition, the technical result is to reduce the complexity of manufacturing by reducing the volume of welding and assembly work and the convenience of their implementation, the exclusion of the bending of the transverse element, as well as the ability to use long products with a simple profile (circle, square, hexagon, etc.).

An additional technical result is that it provides the convenience of using a high-frequency installation for hardening the transverse element. This allows you to increase the strength of the transverse element, as well as reduce the complexity and increase the productivity of the hardening operation. The possibility of using the HDTV installation is due to the fact that the transverse element has a rectilinear shape and a simple cross section.

The technical result is achieved due to the fact that each side support element has a first part extending across the covered surface of the tire and a second part facing the sidewall of the tire, said parts being integral with each other, while the first part is rigidly connected to the transverse element, and a connecting element is mounted on the second part. The technical result is also achieved by the fact that the transverse element is made of a profiled rod. In addition, the technical result is achieved by the fact that at least one lateral support element is equipped with a lug made integrally with it. Also, the technical result is achieved due to the fact that the lateral support element is molded.

Brief Description of the Drawings

A description of the implementation of the utility model is given below and is explained in the drawings, where:

FIG. 1 is a general view of a track link in accordance with one embodiment of a utility model;

FIG. 2 is a top view of the track link of FIG. one;

FIG. 3 is a side view of the track link of FIG. one;

FIG. 4 is a perspective view of a track link in accordance with a second embodiment of the utility model.

Utility Model Implementation

The link of the track chain, made with the possibility of connecting with many links of the track chain to form a flexible track chain, designed to be installed around the outer periphery of the tires of vehicles, contains a transverse element 1, two side support elements located at opposite ends of the transverse element 1 and two connecting elements 2, 3.

The lateral support elements protrude from the same side of the transverse element 1 and spaced to allow placement of the tire 4 between them. The transverse element 1 extends across the male surface of the tire 4. In a preferred embodiment, the transverse element 1 is made of a profiled rod. The rod is a long product with a simple profile, for example, a circle, square, hexagon, etc. The use of such a rod makes it possible to increase the convenience of manufacturing a caterpillar link in the conditions of single and small-scale production, so ensuring its availability at the enterprise does not cause difficulties compared to a non-standard shape rod . In addition, the production of a bar of long products can be organized at the enterprise, since it does not require specialized equipment.

Each side support element has a first part 5, 6, respectively, extending across the covered surface of the tire 4, and a second part 7, 8, respectively, facing the sidewall of the tire 4. The first part 5, 6 is integral with the second part 7, 8, respectively. In a preferred embodiment of the technical solution, the side support elements are cast.

This design of the side support elements allows to ensure the girth of the tire 4, but at the same time use a straight rod as the transverse element 1 and thereby exclude the bending operation. In addition, the use of a straight rod allows the use of a high-frequency installation for hardening the transverse element, since in practice it is not difficult to manufacture the inductor of the required configuration and maintain the same circumferential clearance between the inductor and the transverse element 1 during the hardening process. Also, the design of the transverse element 1 and the side support elements makes it relatively easy to manufacture a track link for tires with different widths. To do this, it is enough to cut the rod of the required length.

The first parts 5 and 6 of the lateral support elements are rigidly connected with the transverse element 1. The connection of the transverse element 1 with the first parts 4 and 5 is preferably carried out by welding. With this design, welding is carried out in easily accessible places, which improves the convenience of manufacturing and reduces the complexity of the work. In addition, the number of welding operations is reduced, since to assemble the entire structure it is enough to weld the ends of the transverse element 1 to the corresponding first parts 5, 6 of the side support elements.

On the second parts 7, 8, a connecting element 2, 3 is mounted, respectively. The connecting elements 2, 3 are necessary for fastening the track link by means of the connecting links 9 with other similar links of the track chain. The connecting elements 2, 3 can be, for example, staples.

For mounting the connecting elements 2, 3, mounting pads 10 and 11 may be provided on the second parts 7 and 8 of the side support elements, respectively. This provides structural strength, ease of installation and dismantling of the connecting elements 2, 3. Installation of the connecting elements 2 and 3 is carried out by welding.

Installation of connecting elements 2, 3 on the second parts 7, 8 of the side support elements, respectively, provides the convenience of replacing them during repair. In practice, they can be easily cut, and new ones are installed in their place, and there is no need to dismantle the side support elements. This allows you to increase the convenience of the repair, to reduce its complexity and time spent on it.

At least one lateral support element, and in a preferred embodiment, both are equipped with lugs 12 and 13, respectively, and lugs 12 and 13 are integral with the lateral support elements, respectively. In a preferred embodiment, the side members with lugs 12 and 13 are cast. This allows you to further reduce the number of assembly and welding work. To assemble the structure, it will be enough to weld three parts: a transverse element 1 and two lateral supporting elements.

Additionally, the transverse element 1 may be provided with one or more lugs 14. Mounting lugs 14 is carried out by welding. This allows you to further increase the adhesion of the vehicle to the surface when equipping it with a flexible track chain.

The device operates as follows. A caterpillar chain consisting of the links described above is mounted around the outer periphery of the tires of the vehicle. The connecting links 9 hold the links of the track chain in a single design. When the vehicle is moving, the lateral support elements prevent the track chain from coming off the tires, and also additionally protect the tires from damage. Lugs 12 and 13 increase the adhesion of the vehicle to the surface.

The utility model is in no way limited to the embodiments described above. On the contrary, there are many modification possibilities that will be obvious to the average person skilled in the art without departing from the basic idea of the utility model described in the formula.

Bibliography

1. Track chains of CLARK TRACKS Ltd: https://www.clarktracks.com/en/gusenitsy.html

2. OLOFSFORS caterpillar chain, distributed under the designation ECO-Track: https://www.eco-tracks.se/produkter/eco-tracks/framaat/eco-track

3. Patent for invention US 5429429 "Tagsk bolster for a track section of a removable flexible track belt", priority from 01.25.1993.

4. Patent RU 2530947 "Track link with two lateral support elements and a method of manufacturing a support element for such a link of the track chain", claimed 05/12/2010

Claims (4)

1. The link of the track chain, made with the possibility of connecting with many links of the track chain to form a flexible track chain, designed to be installed around the outer periphery of the tires of vehicles containing a transverse element, two side support elements located at opposite ends of the transverse element, and the side support the elements protrude from the same side of the transverse element and spaced to allow placement of the bus between them, and two connecting elements, when the transverse element extends across the covered surface of the tire, characterized in that each side support element has a first part extending across the covered surface of the tire and a second part facing the sidewall of the tire, said parts being integrally integral, the first part being rigidly connected with a transverse element, and a connecting element is mounted on the second part. 2. The link of the track chain according to claim 1, characterized in that the transverse element is made of a profiled rod. 3. The link of the caterpillar chain according to claim 1, characterized in that at least one lateral support element is equipped with a lug made integrally with it. 4. Link track chain according to any one of paragraphs. 1-3, characterized in that the lateral support element is molded.

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