CZ3598U1 - Expansion steel-made two-stage anchor - Google Patents

Description

Technical field

The technical solution relates to an expansion two-stage anchor consisting of two parts of a tubular shell, in which a screw with a spacer cone is inserted. The expansion steel two-stage anchor is designed to attach different structures and components to building foundations, i.e. to concrete possibly to brick.

Background Art

The current embodiment of a conventional expansion anchor is the use of a smooth tubular casing, which is provided with at least two slots in the lower portion formed in the longitudinal axis of the tubular anchor shell.

A screw extends freely through the tubular anchor sleeve, on which a spacer cone is screwed into the lower part of the tubular casing and opens the lower part of the tubular casing with its outer surface when tightening the screw.

The expanded tubular casing forms one anchoring area of the expansion steel anchor and the upper part remains unused and forms a mere spacer part of the expansion steel anchor.

The expansion of the tubular casing in the borehole of the building foundation, such as concrete, will inherit the entire anchor. Thereby the anchor is fixed and does not allow the axial displacement required to press and attach the attached article to the building base. For this reason, some anchors are provided with a plastic ring in the central part of the tubular casing, which has protrusions protruding over the tubular casing on its outer diameter. The protrusions prevent the armature from spinning when it is applied, and the plastic ring makes it possible to shorten the tube shell of the anchor due to its deformation and thus to properly push the attached object to the building base.

With this plastic ring, the anchor in its central portion is weakened at its cross-section and there is a high voltage rise at the center portion of the anchor when the load is applied.

In particular, a spacer cone which is provided with an internal thread of the same thread as the screw thread is used when the anchor is inserted into the drilled hole and its application. In the event that the dirt reaches these threads, the armature is rotated as the expansion of the tubular casing is not possible and consequently the entire anchor is fastened in the building foundation.

The essence of the technical solution

The aforementioned drawbacks of the presently known anchoring solutions are eliminated and evaluated by the structural modification according to the following technical solution.

Expansion steel two-stage anchor consists of a two-part tubular casing, the upper part of which is provided with relief on

-1GB 3598 For the inside diameter of the casing, the so-called deformation zone, which is terminated by the outer recess on the tubular casing.

The lower part of the tubular casing is provided with longitudinal slots in the axis of the armature which engage in the recess on the outer diameter of the tubular casing. The lower portion of the tubular casing is further provided with a convex lattice indentation on the outer diameter of the casing. In the upper part of the lower armature part, it is provided with at least two anti-rotation wings extending extensively over the outer diameter of the tubular shell. The bolt passes through the upper and lower parts of the anchor tube jacket, which is fitted with a large diameter washer under the hexagonal head of the bolt and a spreader cone with direct grooving on its outer conical surface is screwed on the screw thread.

When applying the anchor in the drilled hole of the building foundation from concrete or, for example, from the bricks, the anchor is inserted into the hole and first tightening the bolt first rests the spacing cone with its external groove preventing the cone from spinning on the thread of the bolt by the slit lower tube part of the bolt, which opens after the made undercut of the lower part tube anchor sleeve. The convex lattice indentation of the lower part of the tubular shell of the anchor is better fitted into the coarse structure of the building material, thereby increasing the coefficient of friction, which increases the overall load-bearing capacity of the anchor. When the anchor is pushed into the opening, the lower part of the tubular casing with its anti-rotating wings fits into the hole and prevents the armature from spinning when it is applied. If the lower part of the anchor sleeve is expanded in the opening, the compressive force is transmitted to the upper part of the anchor sleeve, which in its lower part deforms into the keg shape, thereby forming a second anchorage stage. At the same time, the shortening of the tubular sheath in the axial direction occurs, thereby properly pressing and attaching the attached article to the building foundation.

A large-diameter washer is used to improve the transfer of the fastening forces, which is better able to carry the load. BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is explained in more detail with reference to the drawings, in which: FIG. 1 shows the anchor in view, FIG. 2 shows the anchor in section, FIG. 3 shows the convex grid indentation, FIG.

Example of execution

The expansion steel two-stage anchor is formed by a hexagonal bolt 1 and a large-diameter washer 2, an upper part 2 of a tubular shell, on which a recess 4 is made on the outer diameter which promotes deformation of the deformation area 5 of the upper part 2 of the tubular shell. The upper part 2 of the tubular expansion anchor is provided in its inner diameter with a reduction forming a deformation region 5. At the top of the lower tubular housing part 8 there are at least two anti-rotation protruding wings 6 and an anti-rotation anchor during installation. The lower part 8 of the tubular casing is provided with a recess 2 supporting the deformation of the cut casing. Four notches 13 are made in the lower part 8 of the tubular casing each of 90 ° reaching up to the recess 2 · At the bottom

For example, the outer diameter of the tubular casing 8 is formed by convex lattice indentations 9 corresponding to the roughness of the building element. A spacer cone 11 is inserted into the inner diameter of the tubular casing slit 8. The spacer cone 11 is provided with a straight groove on its outer diameter. A conical bevel 14 is provided in the lower portion 8 of the tubular casing to facilitate insertion of the spacer cone 11 into the anchor casing. Industrial usability

The invention is mainly applicable in the construction industry, geological works and mountaineering.

Claims (1)

PROTECTION REQUIREMENTS Expansion steel two-stage anchor consisting of a two-piece tubular casing in which a hexagon head bolt (1) with an expanding cone (11) is inserted, characterized in that a large diameter washer (2) is located above the upper part (3), a deformation region (5) is formed in the tubular casing part (3) in the upper part of the lower casing part (8). at least two antirotation wings (6) are located in the tubular sheath, a convex, lattice notch (9) is located in the lower tubular sheath (8) and a straight groove (12) is located on the expanding cone (11), (3) the tubular sheath and the lower tubular sheath part (8) provided with external recesses (4, 7).