RU2045368C1 - Holder for riveting - Google Patents

Abstract

FIELD: riveting-assembly process. SUBSTANCE: anvil is mounted on one end of the hollow housing handle. An inertial member whose mass is equal to that of the anvil is set up on the other end. A tubular member made of the superelastic material of the titanium nickelide type is disposed in the cavity of the housing-handle. A bar made of the soft-deformed material is placed inside the tubular member. EFFECT: simpler design. 2 cl, 1 dwg

Description

 The invention relates to snap riveting and assembly production, in particular to a hand tool type support.

Known support for riveting, containing a hollow body with a rod placed in it with an anvil, which are spring-loaded in the axial direction relative to the body. A conical spring is placed in the housing between the anvil and the compression spring, the larger base of which is connected to the housing, and the smaller to the stem. The compression spring and conical spring are made of the same stiffness. A rod with an anvil is located between the springs and works as an elastically suspended body [1]
This support is characterized by a small absorption of impact energy, since the springs, deforming under the action of the impact, almost completely return this energy during reverse movement.

Known support for riveting, comprising a hollow body-handle with anvil mounted on it and a vibration damping unit located in the cavity of the body-handle [2]
The disadvantage of this support is that the amount of shock energy absorption due to air throttling is insufficient to effectively reduce vibration on the handle.

 The invention is intended to solve the problem of reducing the level of vibration on the support handle.

 The problem is solved in that the support comprises a damping unit made in the form of a tubular element made of a material exhibiting superelastic properties, for example, titanium nickelide, and a rod installed in its cavity, which is made of plastic-deformable material. In addition, the support is equipped with an inertial element mounted on the casing and of equal mass to the anvil, and a damping unit is located between the latter and the anvil.

 The effectiveness of the functioning of this damping unit is determined by the fact that upon impact on the anvil the tubular element is elastically deformed, and the plastic-deforming rod placed inside it, in turn, is plastic deformed and thereby absorbs a certain fraction of the impact energy. After the passage of the shock pulse, the elastic energy accumulated by the tubular element is aimed at restoring its geometrical dimensions and undergoes reverse deformation of the plastic deformable rod. This absorbs additional impact energy. The implementation of the tubular element of an alloy exhibiting the properties of superelasticity, allows to increase the degree of deformation of the plastic-deformable rod and thereby increase the fraction of impact energy absorbed in this case.

 The drawing shows the support for riveting in the context.

 The support comprises an anvil 1 of equal mass in mass and an inertial element 2 mounted on a hollow body-handle 3. In the cavity of the body-handle 3 there is a tubular element 4 made of a superelastic material such as titanium nickelide. A rod 5 of plastic deformable material is inserted inside this element. The skirt of the handle body 3 is located in the corresponding socket of the anvil 1. The outer surface of the body is covered with elastic material 6.

 Support for riveting works as follows.

 The shock pulse is transmitted to the anvil 1, through it to the superelastic tubular element 4 and the plastic deformable rod 5. As a result of the inertia of the mass of the handle body 3, the tubular element 4 is deformed, absorbing part of the energy and occupies the position shown in the drawing by the dash-dot line. After the impact, the shape of the element is restored. Thus, the tubular element 4 plays the role of an elastic shell, which, due to the elastic forces, returns the plastically deformable rod to its original state and thus the damping unit returns to its original state and is ready to perceive the next impact.

 This device provides good absorption of impact energy and guarantees high protective properties of support.

Claims (3)

 SUPPORT FOR RIVET, containing a hollow body-handle with anvil mounted on it and a vibration damping unit located in the cavity of the handle-body, characterized in that the damping unit is made in the form of a tubular element made of a material having superelasticity and a rod made of its cavity plastic deformable material.  2. Support according to claim 1, characterized in that titanium nickelide is used as a material having the property of superelasticity.  3. Support according to claims 1 and 2, characterized in that the support is equipped with an inertial element mounted on the casing and of equal mass by the anvil, and the damping unit is located between the latter and the anvil.