RU2114329C1 - Expansion bolt - Google Patents

Abstract

FIELD: mechanical engineering; threadless fastenings secured in blind holes; erection and construction jobs. SUBSTANCE: expansion bolt has two similar engageable metal sections having form of circular segment in cross section. Each pair of surfaces of sections directed towards each other has slot and mating projection; outer surface of each section is provided with respective fixing devices made in form of taper projections whose axes are located along straight line parallel to axis of respective section and shifted relative to this axis by amount equal to D/2-H, where D is diameter of outer surface of section and H is height of circular segment which makes it possible to use expansion bolt together with nail or cylindrical rod. EFFECT: increased load-carrying capacity. 3 cl, 2 dwg

Description

 The invention relates to mechanical engineering, in particular to threadless fasteners fixed in blind cylindrical holes, and can be used in the construction and installation works.

 A dowel is known from the prior art (French application N 2433669, class F 16 B 13/06, 1980), made in the form of a detachable metal or plastic element, consisting of two parts that interact with each other along axial relative displacements along curved surfaces. The spacer element is inserted into the blind hole and when applied to both parts of the external compressive load, the parts of the spacer element, interacting with each other, move towards each other. As a result, the outer contour of the spacer element expands and its parts are pressed against the walls of the hole.

 A disadvantage of the known dowel is that it is clamped in the hole with only two mutually opposite sides. As a result of uneven load distribution, the bearing capacity of the dowel is significantly reduced. In addition, the known dowel cannot be used in conjunction with a nail or a cylindrical rod.

 A dowel is also known (application FRG N 2434502, class F 16 B 13/08, 1976), taken as a prototype and containing two identical sections interacting with each other, having an annular segment in cross section, and a groove is made on each pair of mutually inverted surfaces of the sections and a corresponding protrusion, and on the outer surface of each section a fixing element is made.

 A disadvantage of the known dowel is that it has a low bearing capacity due to the execution of the fixing elements in the form of elastic petals. In addition, the known dowel cannot be used in conjunction with a nail.

 The basis of the invention is the task of developing a dowel, the structural implementation of which would make it possible to use it together with a nail or a cylindrical rod while ensuring high load-bearing capacity.

 The problem is solved in that in the dowel, containing two interacting sections with a section of an annular segment, with each pair of mutually reversed surfaces of the sections, a groove and a corresponding protrusion are made, and the outer surface of each section is equipped with fixing means, according to the invention, the sections are made made of metal, the fixation means are made in the form of a series of conical protrusions whose axes are located along a straight line parallel to the axis of the corresponding section and offset by y equal to D / 2-H, where D is the diameter of the outer surface of the section, H is the height of the annular segment of the section of the section.

 It is advisable that at least half the length of each section, the diameter of the bases of the conical protrusions increase in a direction coinciding with the direction of orientation of the vertices of the conical protrusions of the corresponding section.

 Preferably, the diameter of the bases of the conical protrusions varies from D / 2 + H to D.

 The implementation of the dowel made of metal ensures the use of a nail or a cylindrical rod as a spacer, and the fixation means in the form of a series of conical protrusions ensure reliable fixation of the dowel, since when the spacer is clogged, the conical protrusions are pressed into the hole material having a diameter equal to the diameter of the outer surface of the sections dowels.

 Performing at least half the length of the dowel of the conical protrusions of different heights (increasing in the direction of the tops of the conical protrusions) allows you to place its end in the hole between the sections before driving the spacer element. In other words, simplified installation is provided.

 The invention is further illustrated by the drawing and description thereof.

 In FIG. 1 shows one of the sections of the proposed dowel, side view; in FIG. 2 is the same, view along arrow A in FIG. one.

The dowel contains two identical sections 1 made of metal and interacting with each other on two surfaces 2 and 3, on one of which a groove 4 is made, and on the other a protrusion 5 corresponding to it. Each section 1 has an annular segment H. On the outer surface of each section 1, fixing means are made in the form of a series of n conical protrusions 6, the axes of which are located along a straight line 7 parallel to the axis 8 of the corresponding section and offset by 1 / 2D - H, where D is the diameter of the outer surface of section 1 by radio su perpendicular to the base of the ring segment. In a preferred embodiment of the device, the diameter of the bases of the conical protrusions 6 increases at least half the length of the sections in the direction coinciding with the direction of orientation of the vertices of the conical protrusions 6: D ₁ <D ₂ <D ₃ <... <D _i (i <n) .

до D. Высота h₁ выступов 5 и соответственно глубина h₂ пазов 4 удовлетворяет соотношению: h₁ ≈ h₂ ≥ D - 2H.In a preferred embodiment, the dowel, the diameter of the bases of the conical protrusions 6 varies from

to D. The height h _{1 of the} protrusions 5 and, accordingly, the depth h _{2 of the} grooves 4 satisfies the relation: h ₁ ≈ h ₂ ≥ D - 2H.

 Installation of the proposed dowel is as follows. Section 1 of the dowel is placed in such a way relative to each other so that the mutually reversed surfaces 2 and 3 of the different sections 1 are in contact with each other, and the protrusions 5 of each section 1 are in the corresponding groove 4 of the other section 1 of the dowel. In this position, the dowel sections 1 are inserted (for example, all the way into the bottom) into a pre-prepared blind cylindrical hole. After that, in the hole formed by the inner surfaces of the sections 1, the end of the spacer element (nail or cylindrical rod) is placed. Then produce clogging the spacer element. When driving a spacer element, sections 1 of the dowel move in diametrically opposite directions, as a result of which the protrusions 6 are pressed into the material of the wall of the hole and the dowel is firmly fixed with the spacer element.

 In some cases, for better fixation of the spacer element, it is advisable to perform screw protrusions on the inner surface of sections 1, for example, in the form of multiple threads (not shown).

Claims (3)

 1. An expansion bolt shield containing two identical sections interacting with each other and having an annular segment in cross section, with a groove and a corresponding protrusion made on each pair of mutually inverted surfaces of the sections, and the outer surface of each section provided with fixing means, characterized in that the sections are made of metal , the fixing means are made in the form of a series of conical protrusions, the axes of which are located along a straight line parallel to the axis of the corresponding section and offset relative to this axis by an amount equal to D / 2 - H, where D is the diameter tr of the outer surface of the section, H is the height of the annular segment of the section of the section.  2. The dowel according to claim 1, characterized in that at least half the length of each section, the diameter of the bases of the conical protrusions increases in a direction that coincides with the direction of orientation of the vertices of the conical protrusions of the corresponding section.  3. The expansion bolt shield under item 1, characterized in that the diameter of the bases of the conical protrusions varies in the range (D / 2 + H) - D.

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