RU2353832C1 - Zemlyakov locking bolt used for through threaded hole - Google Patents

Abstract

FIELD: engineering industry.

SUBSTANCE: invention refers to engineering industry. Locking bolt is made of the main standard bolt. Main hole is made along the main bolt axis in its head and in its threaded body, and additional hole of smaller diameter is made in the face end of its threaded body. Main hole is equipped with metric thread whereon there screwed is expansion bolt having a hexagonal head and a body with metric thread, and face end of expansion bolt body is taper. Through radial slots are made along the threaded body of the main bolt on face end thereof along the axis. Spring washer is installed under expansion bolt head and held down to flat surface of the main bolt head. For taper end face of expansion bolt there provided is a stop against transition edge of the additional hole in threaded body of the main bolt, thus ensuring release of sector segments of the main threaded body, which are formed by its slots. Expansion bolt head flats are covered with hexagonal hole flats of washer with many flats; one side of that washer is held down to flat end surface of hexagonal head of the main bolt. Diameter size between interfacial angles of washer with many flats and diameter size between interfacial angles of hexagonal head of the main bolt are equal. Working thickness of washer with many flats is bigger than that of spring washer. A heat shrink tube or a cap is installed above the flats of the main bolt head and flats of washer with many flats and held down tightly by means of thermal shrinkage.

EFFECT: providing locking reliability.

3 cl, 5 dwg

Description

The invention relates to mechanical engineering and can be used to perform threaded locking of various parts and assemblies in machines and apparatuses, in building structures and in other equipment operating in conditions of strong and long-term vibration, for example, in rail-sleeper structures, in locomotive equipment, in aviation equipment, in automobile and tractor, in shipbuilding and in another, for example, in constructions assembled in space orbits.

The usual design of a threaded connection is known, in which a threaded element, a bolt, is inserted into a coaxial through hole made in the compressible part and in the housing. To perform such a detachable fastening, a washer is installed on the threaded rod of the bolt from the side of the internal cavity of the housing, and a clamping nut is screwed over the washer and tightened [1].

The drawback of securing the bolt in such a through hole is that it is not possible to lock the threaded rod of the bolt in the threaded hole itself. Locking the bolt can only be done on the part that extends beyond the threaded hole toward the body cavity. Why use a nut that you want to install on the threaded rod of the bolt from the side of the body cavity. And this option is possible if there is access to the body cavity, and if it is not, then it is simply impossible to install a nut on a threaded rod.

Closest to the claimed invention, the known technical solution adopted for the prototype is a "Self-locking bolt" [2], made with polyamide (vulcanized fiber) plugs or rings in a threaded rod. This design of the self-locking bolt allows you to install and lock the bolt in the through threaded hole. Such a bolt allows for the possibility of releasably pressing the part to the housing having a closed cavity, eliminating the need to install a nut from the side of the cavity.

A disadvantage of the design of such a known bolt is that in the presence of high loads or vibrations, the inserted polyamide plugs or rings have to be replaced periodically. In addition, when loading the joints with forces in the plane of the junction of the plug and the ring of polyamide and fiber, only slightly increase the oscillation power until self-unscrewing. But self-screwing the bolt is not excluded.

The problem to which the invention is directed, is to ensure reliable locking of the bolt in the through threaded hole of the housing with the provision of preloading the part attached to the housing without installing polyamide liners or nuts on the thread.

This is achieved by the fact that the locking bolt for the through threaded hole has a hexagonal head and a threaded rod, which is located in the through threaded hole of the housing to which the component is pressed by the bolt head, while the locking bolt is made of a main standard bolt along the axis of which in its head and a main hole is made in its threaded rod, and an additional hole with a smaller diameter is made in the end end of its threaded rod, while the main hole is provided with a metric thread along a spacer bolt is screwed in, having a hexagonal head and a rod with metric thread, the end end of the spacer bolt shaft is conical, with a cone angle of 45 to 90 °, through the threaded rod of the main bolt, end-to-end radial grooves are made along the axis along the axis to a depth of t , in the range from 50 to 100% of the length of the threaded rod, a spring washer is installed and pressed against the flat surface of the head of the main bolt under the head of the spacer bolt, while the conical end end of the spacer bolt is provided with p into the transition edge of the additional hole in the threaded rod of the main bolt with the expansion of the sectors of the main threaded rod formed by its grooves, the faces of the head of the spacer bolt are covered by the faces of the hexagonal holes of the polyhedral washer, one side of which is pressed against the end flat surface of the hexagonal head of the main bolt, and the diametric size between the inter-facet angles of the polyhedral washer and the diametric size between the inter-facet angles of the hexagonal head of the main bolt are the same, the working thickness and λ polyhedral washer greater than the thickness of the spring washers over the main faces of the head of the bolt and the washer faces polyhedral installed and tightly heat shrinking the heat shrinkable tube is biased or cap.

The number of through radial grooves in the threaded rod of the main bolt can be from 1 to 6. The working thickness λ of the multifaceted washer can exceed the thickness of the spring washer by 10-100% of the thickness of the spring washer.

The invention is illustrated by drawings, where figure 1 shows a General view of a bolt with an axial section installed in a through hole of the housing. Figure 2 shows a section aa from figure 1. Figure 3 shows a multifaceted washer. Figure 4 shows a section bB of figure 3. Figure 5 shows a multifaceted washer with the number of faces greater than six.

The locking bolt for the through threaded hole is made of a hexagonal head 1 and a threaded rod 2, which is located in the through threaded hole of the housing 3, to which part 4 is pressed by the bolt head. The main hole is made along the axis of the main bolt in its head 1 and in its threaded rod 2 5, and at the end end 6 of its threaded rod 2, an additional hole 7 with a smaller diameter is made. The main hole 5 is provided with a metric thread 8, on which a spacer bolt 9 is screwed, having a hexagonal head 10 and a rod with a metric thread 11. The end end 12 of the rod 11 of the spacer bolt 9 is tapered with a cone angle of 45 to 90 °. Along the threaded rod 2 of the main bolt from the side of its end end 6 along the axis there are made radial grooves 13 to a depth t in the range from 50 to 100% of the length of the threaded rod. Under the head 10 of the spacer bolt 9, a spring washer 15 is installed and pressed against the flat surface 14 of the head of the main bolt 1. The tapered end end of the spacer bolt 12 is provided with a stop in the transition edge 16 of the additional hole 7 in the threaded rod 2 of the main bolt, allowing the sectors 17 of the main threaded rod to expand 2 formed by its grooves 13. The faces 18 of the head 10 of the spacer bolt 9 are surrounded by the faces 19 of the hexagonal hole 20 of the polyhedral washer 21, one side of which 22 is pressed against the end flat surface 14 of the hexagonal oh head 1 of the main bolt. The diametric size µ between the inter-facet angles of the polyhedral washer 21 and the diametric size between the inter-facet angles of the hexagonal head 1 of the main bolt are the same, the working thickness λ of the polyhedral washer 21 is greater than the thickness of the spring washer 15. On top of the faces of the head of the main bolt and the faces 23 of the polyhedral washer 21 is installed and rigid pre-shrink shrink tube 24 or cap.

The device operates as follows.

Before fastening the bolt in the through threaded hole, the bolt as an assembly unit must be preassembled from the following individual parts: 1) the main bolt having a head 1 and a threaded rod 2; 2) a spacer bolt 9 having a hex head 10 and a threaded rod 11, but before screwing the spacer bolt 9 into the thread 8 made in the head 1, a spring washer 15 is put on its threaded rod 11 under the head 10, and the end conical end 12 of the bolt 9 in this case, it should only rely on the annular edge 16 of the additional hole 7 in the end part 6 of the rod 2.

And in this assembled form, the bolt (s) are stored in a warehouse until it is used. If necessary, screw such an assembly unit into the through threaded hole of the housing 3, while clamping the part 4 in accordance with the assembly technology, through a regular washer 25 and a spring 26, which are worn on the threaded rod 2 before clamping the part 4. Next, to ensure a reliable locking bolts in the through threaded hole, take the second key under the face 18 of the head 10 and continue to rotate the head 10, screwing the bolt 9 along the thread 8, while pressing the spring washer 15 against the stop and simultaneously resting against the conical surface w 12 in edge 16 of the hole 7. Such an additional operation provides 17 main sectors unclamping threaded rod 2, its formed slots 13, resulting in a highly reliable locking of the main bolt in the through tapped hole. After locking on the face 18 of the head 10, a multi-faceted washer 21 is installed, combining the faces 19 of the hexagonal hole 20 of the multi-faceted washer 21 with the faces 18 of the head 10 of the spacer bolt 9. Then, on top of the faces of the head 1 of the main bolt and the faces 23 of the multi-faceted washer 21, a heat shrink tube 24 or cap is installed and evenly around the entire perimeter, heat-shrink tube 24 or cap begins to warm up until tight shrinkage of the tube 24 or cap is on the verge of the head 1 of the main bolt and the verge 23 of the multi-faceted washer 21.

And thus, after shrinkage, a "mechanical memory" of the interference value created in the threads of the main bolt and the housing 3 is provided, creating high reliability of the device in conditions of strong and long-term vibration.

The number of through radial grooves in the threaded rod of the main bolt from 1 to 6 is explained by the fact that with one groove it is possible to perform expansion, but with a large moment, and with a number of more than six, the cost increases, without improving the locking effect.

The taper range of 45-90 ° is due to the fact that the taper of less than 45 ° is more difficult to manufacture, and the taper of more than 90 ° requires the creation of more torque when tightening.

The usefulness of the invention lies in the fact that such a bolt device for fastening in a through threaded hole allows you to quickly install the bolt, ensuring reliable fastening of parts on the housings, tanks and other structures, excluding the operation of fastening the bolt from the side of the cavity of the tank or housing using a nut. In addition, for mounting and dismounting the bolt, only two sizes of wrenches are required, which allow for a high moment both during installation and during dismantling. Installation is carried out in only four operations: 1 - screw the hex head 1 of the main bolt with a key into the through threaded hole until the part 4 is pressed; 2 - screw in the hexagonal head 10 of the spacer bolt 9 with a key until it stops (compressing the spring washer 15), while ensuring the expansion of the sectors 17 of the rod 2 of the main bolt; 3 - install a multi-faceted washer; 4 - install and heat shrink the heat shrink tube 24 or cap.

Information sources

1. M.L. Gelfand, Ya. I. Tsipenyuk, O.K. Kuznetsov. Assembly of threaded connections. M .: Mechanical Engineering, 1978, p. 62.

2. G. B. Iosilevich, Yu.V. Sharlovsky. Tightening and locking threaded connections. M.: Mechanical Engineering, 1971, p. 113.

Claims (3)

1. A locking bolt for a through threaded hole having a hexagonal head and a threaded rod, which is located in a through threaded hole of the housing, to which a part is pressed by the head of the bolt, characterized in that the locking bolt is made of a main standard bolt along the axis of which in its head and a main hole is made in its threaded rod, and an additional hole with a smaller diameter is made in the end end of its threaded rod, while the main hole is provided with a metric thread along which A spacer bolt having a hex head and a metric threaded rod has been installed, the end end of the spacer bolt rod is conical, with a cone angle of 45 to 90 °, along the threaded rod of the main bolt from its end end, through radial grooves are made along the axis to a depth of t , in the range from 50 to 100% of the length of the threaded rod, a spring washer is installed and pressed against the flat surface of the head of the main bolt under the head of the spacer bolt, with an emphasis on the conical end end of the spacer bolt the leading edge of the additional hole in the threaded rod of the main bolt, ensuring the expansion of the sectors of the main threaded rod formed by its grooves, the faces of the head of the spacer bolt are covered by the faces of the hexagonal holes of the polyhedral washer, one side of which is pressed against the end flat surface of the hexagonal head of the main bolt, and the diametric size is between the polyhedral angles of the polyhedral washer and the diametric size between the polyhedral angles of the hexagonal head of the main bolt are the same, the working thickness λ of the multifaceted washer is larger than the thickness of the spring washer; a heat-shrinkable tube or cap is installed and rigidly pressed by heat shrink over the faces of the main bolt head and the faces of the multifaceted washer. 2. The bolt according to claim 1, characterized in that the number of through radial grooves in the threaded rod of the main bolt is from 1 to 6. 3. The bolt according to claim 1, characterized in that the working thickness λ of the multifaceted washer exceeds the thickness of the spring washer by 10-100% of the thickness of the spring washer.

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