RU2140496C1 - Anchor - Google Patents

Abstract

FIELD: construction, applicable for mounting of heat insulation and protective- decorative coating on building walls. SUBSTANCE: anchor for attachment in a blind hole in the wall is made in the form of a bar with a fixing plug, in addition it is furnished with a cylindrical bush installed on its end located in the blind hole of the wall, the bush has longitudinal cuts diametrically arranged open towards the hole mouth. The bar has a cross-section in the form of a rectangle, and the inside diameter of the cylindrical bush equals the diagonal of the bar cross-section. The fixing plug, whose longitudinal section is made in the form of a wedge, is press-fitted in the gap between the bar and the bush inner surface in parallel with the bar axis. The free end of the bar is located normally to the wall surface. The longer side of the bar rectangular cross-section is positioned vertically. A bearing bush made in the form of a ring furnished with a radial cut over its entire length may be installed between the cylindrical bush and the mouth of the hole on the bar. The bar may be made straight or bent in its middle part at an angle of 120 to 179 deg. EFFECT: enhanced carrying capacity. 11 cl, 7 dwg

Description

 The invention relates to the field of construction and can be used for thermal insulation and protective-decorative coating of walls of existing and newly constructed buildings.

 Known anchor for attaching attachments to the bearing part of the wall, containing a rod with a conical end. The rod is inserted into a blind hole pre-drilled in the wall, a conical sleeve is put on the conical end of the rod, which, in turn, is covered by another external sleeve. The free end of the rod is threaded with a nut screwed onto it. When installing the anchor in the design position, the nut is screwed onto the rod, the conical end of which bursts the conical sleeve and the outer sleeve, jamming its end in the body of the load-bearing part of the wall (USA, patent 4656806 from 1987, NKI 52/704). The disadvantage of the anchor is its busyness in the manufacture.

 It is also known to fasten the cladding to a concrete surface, which is carried out using a concrete nail made of hard metal with a conventional head, next to which a soft metal stud without a head is inserted into the same hole. To increase the pulling resistance, helical grooves are arranged on the surface of the nail, which are arranged with a large pitch (USA, patent 4454701 from 1984, NKI 52/704). For installation of thermal insulation and protective and decorative coatings on concrete on the walls of a building, such an anchor does not provide sufficient bearing capacity.

 The closest analogue adopted for the prototype of the claimed invention is the anchor according to US patent 4250681 from 1981, NKI 52/704, made in the form of a curved rod, the free part of which is located normally to the front surface of the wall, and the bearing part is inserted into an inclined blind hole in the body of the wall. First, a shallow hole is drilled perpendicular to the wall surface, then, using an already drilled hole, a hole inclined relative to the wall surface is drilled and a small hole is again perpendicular to the wall in it. The rod is inserted into the inclined hole, and a fixing plug is inserted into the small hole. Given the high load-bearing capacity of such an anchor, it is difficult to make all three holes in construction conditions under the accuracy of their relative position.

 The objective of the present invention is to provide a high bearing capacity of the anchor with the relative simplicity of the manufacture of parts and its installation.

 This goal is achieved by the fact that the anchor for fixing in a blind hole in the wall, made in the form of a rod with a fixing stopper, is additionally equipped with a cylindrical sleeve installed at its end, placed in a blind hole in the wall, having longitudinal cuts diametrically open towards the mouth of the hole length equal to 1/3 - 2/3 of the length of the cylindrical sleeve, while the length of the sleeve is 1/5 - 2/3 of the depth of the blind hole, and the rod has a cross section in the form of a rectangle, and the inner diameter of the cylinder eskoy sleeve is a diagonal cross-section of the rod, with the gap between the rod and the inner surface of the sleeve parallel to the longitudinal axis of the rod is pressed fixing plug, a longitudinal section which is designed as a wedge. The rod can be made curved in its middle part at an angle of 120-179 degrees, and the free part of the rod is located normally to the wall surface. The long side of the rectangular cross-section of the rod is vertical. The surface of the rod can be made smooth along the entire length. A cylindrical sleeve can be mounted on the end of the shaft on the thread. Threads may be cut at the free end of the shaft. The cross section of the locking plug may be in the form of a segment with a radius equal to the inner diameter of the sleeve, or a truncated segment with parallel faces, or a rectangle. A support plate made in the form of a half-cylinder with an external diameter equal to the diameter of the hole can be mounted under the rod at the mouth of the hole. Between the cylindrical sleeve and the mouth of the hole on the rod can be installed supporting sleeve, made in the form of a ring, equipped with a radial section along its entire length.

 A comparative analysis of the claimed anchor with the prototype shows that it differs in that the anchor is additionally equipped with a cylindrical sleeve installed at its end, placed in a blind hole in the wall, having longitudinal cuts diametrically open towards the mouth of the hole, 1/3 - 2 / 3 of the length of the cylindrical sleeve, while the length of the sleeve is 1/5 - 2/3 of the depth of the blind hole. The rod has a cross section in the form of a rectangle, and the inner diameter of the cylindrical sleeve is equal to the diagonal of the cross section of the rod. In the gap between the rod and the inner surface of the sleeve parallel to the longitudinal axis of the rod, a fixing tube is pressed in, the longitudinal section of which is made in the form of a wedge. The rod is made curved in its middle part at an angle of 120-179 degrees, and in this case, the free part of the rod is located normal to the wall surface. The long side of the rectangular cross-section of the rod is vertical. The surface of the rod can be made smooth along the entire length. A cylindrical sleeve can be mounted on the end of the shaft on the thread. Threads may be cut at the free end of the shaft. The cross section of the locking plug may be in the form of a segment with a radius equal to the inner diameter of the sleeve, or a truncated segment with parallel faces, or a rectangle. A support plate made in the form of a half-cylinder with an external diameter equal to the diameter of the hole can be mounted under the rod at the mouth of the hole. Between the cylindrical sleeve and the mouth of the hole on the rod can be installed supporting sleeve, made in the form of a ring, equipped with a radial section along its entire length.

 This analysis allows us to conclude that there is novelty in the proposed invention.

 A comparison of the claimed anchor with other well-known technical solutions of the same purpose shows that the placement of the cylindrical sleeve with longitudinal cuts towards the mouth of the hole at the end of the rod and the use of a wedge-shaped fixing tube pressed between the rod and the inner surface of the cylindrical sleeve allows you to reliably wedge the cylindrical sleeve in a blind hole in wall and fix the rod in this hole, preventing it from being pulled out. The execution of the rod is curved, the long side of its cross section in the vertical position, as well as the location under the rod at the mouth of the hole of the support plate and its shape or placement between the cylindrical sleeve and the mouth of the hole on the rod of the support sleeve, made in the form of a ring, provided with a radial cut throughout its length, increase the bearing capacity of the rod and the zone of the wall in the place where the rod exits to the surface. And threading at the free end of the rod allows you to adjust the distance of the stucco mesh fixed to the anchor to the wall surface.

 These beneficial effects can be obtained by using the features claimed in the claims. The comparison allows us to conclude that the proposed technical solution exceeds the existing level of technology.

The invention is illustrated by an example of its implementation. The drawings show:
- in FIG. 1 - general view of the anchor assembly;
- in FIG. 2 is a section along AA in FIG. 1;
- in FIG. 3 is a section along BB in FIG. 1;
- in FIG. 4 - wedge-shaped fixing tube;
- in FIG. 5 - wedge-shaped fixing tube, end view;
- in FIG. 6 is a general view of the complete anchor, an embodiment of the support sleeve in the form of a cut ring;
- in FIG. 7 is a section along BB in FIG. 6.

 The main part of the anchor is the rod 1, which can be made straight (not shown in the drawings) or bent in its middle part at an angle of 120-179 degrees. At the end 2 of the rod, which is intended to be fixed in the wall 3, a cylindrical sleeve 4 is installed, having diametrically located open towards the mouth 5 of the blind hole 6, into which the anchor is installed, longitudinal sections 7 with a length equal to 1/3 - 2/3 of the length of the cylindrical bushings. The sleeve length is 1/5 - 2/3 of the depth of the blind hole. The cross section of the rod is made in the form of a rectangle, the long side 8 of which is located vertically. The short sides 9 of the rectangle can be straight or rounded with a radius of curvature equal to the inner radius of the cylindrical sleeve. In turn, the inner diameter of the cylindrical sleeve is equal to the diagonal of the cross section of the rod and thus the rod enters the cylindrical sleeve. In the gap between the rod and the inner surface of the sleeve there is a locking plug 10, the longitudinal section of which is made in the form of a wedge 11. The surface of the rod can be made smooth, as in FIG. 1, or have a thread 12 at the end mating with the cylindrical sleeve, or a thread 13 at the free end for mounting the plate 14 on which the reinforcing mesh is installed (not shown in the drawings); the thread can be made at both ends of the rod or only at one of its ends. Instead of a thread 13 and a plate 14, a through hole 15 can be made on the free end of the rod for fastening the reinforcing mesh 15. The cross section of the fixing plug 10 can be in the form of a segment 16 with a radius equal to the inner diameter of the sleeve, or a truncated segment with parallel faces, or a rectangle. To reduce the pressure of the anchor on the wall material located at the mouth of the hole, a support plate is mounted under the rod at the mouth of the hole, made in the form of a half cylinder 17 with an external diameter equal to the diameter of the hole. The support plate can be made in the form of a sleeve 18 of an annular cross section, provided with a radial cut 19 for its entire length.

 The anchor is installed in the following order: a blind hole 6 is drilled in wall 3 at an angle to the wall plane, corresponding to the angle of the bend of the rod 1 so that the free end of the rod when mounted in the design position is normal to the wall. Then, at the end 2 of the rod, a cylindrical sleeve 4 is mounted - put on or screwed onto the thread 12 so that the longitudinal sections 7 of the sleeve are located towards the free end of the rod, and together with the rod the cylindrical sleeve is mounted in the drilled hole 6. When mounting the sections 7 of the sleeve 4 turn out to be directed towards the mouth of the 5 holes. The narrow end of the wedge-shaped fixing tube 10 is inserted into the gap 20 between the rod 1 and the cylindrical sleeve 4, and then the plug is clogged (pressed) between the inner surface of the cylindrical sleeve 4 and the body of the rod 1; while the parts of the sleeve located between the grooves 7 expand and are tightly pressed against the walls of the blind hole 6, and the locking plug wedges the shaft 1, preventing it from being removed from the blind hole 6. The bearing capacity of the rod for pulling forces increases if the cylindrical sleeve 4 is screwed onto the thread at its end 2. To increase the area of support of the rod on the wall material forming the mouth 5 of the hole 6, and thus reduce the specific pressure from the anchor, a support plate can be used on this part: if the plate is made in the form of a half-cylinder 17, then it is inserted into the hole 6 in its mouth after installing the anchor on its upper generatrix, and then rotates around the longitudinal axis of the rod and turns out to be under the rod - naturally, in this case, the locking plug 10 should be buried in the hole so so as not to impede the rotation of the half-cylinder 17. If the support plate has the shape of a cut ring 18, then this ring is put on the rod 1 before installing the cylindrical sleeve 4 on it, and the fixing tube 10 is missing camping into the clearance between ring and rod by performing radial cuts in the ring 19. After the installation of the anchor into the hole 6 is filled with cement milk, preventing corrode parts of the anchor.

Claims (11)

 1. Anchor for fastening in a blind hole in the wall, made in the form of a rod with a fixing stopper, characterized in that the anchor is additionally equipped with a cylindrical sleeve having diametrically open longitudinal openings towards the mouth of the hole installed at its end, located in the blind hole of the wall length equal to 1/3 - 2/3 of the length of the cylindrical sleeve, while the length of the sleeve is 1/5 - 2/3 of the depth of the blind hole, and the rod has a cross section in the form of a rectangle, and the inner diameter of the cylinder eskoy sleeve is a diagonal cross-section of the rod, with the gap between the rod and the inner surface of the sleeve parallel to the longitudinal axis of the rod is pressed fixing plug, a longitudinal section which is designed as a wedge.  2. Anchor according to claim 1, characterized in that the free part of the rod is located normally to the wall surface.  3. Anchor according to claim 1 or 2, characterized in that the long side of the rectangular cross-section of the rod is vertical.  4. Anchor according to claim 1 or 2, characterized in that the surface of the rod is made smooth along the entire length.  5. Anchor according to claim 1 or 2, characterized in that the cylindrical sleeve is mounted on the end of the rod on the thread.  6. Anchor according to claim 1 or 2, characterized in that a thread is cut at the free end of the rod.  7. Anchor according to claim 1 or 2, characterized in that the cross-section of the fixing tube has a segment shape with a radius equal to the inner diameter of the sleeve, or a truncated segment with parallel faces, or a rectangle.  8. Anchor according to claim 1 or 2, characterized in that under the rod at the mouth of the hole is mounted a support plate made in the form of a half cylinder with an external diameter equal to the diameter of the hole.  9. Anchor according to claim 1 or 2, characterized in that between the cylindrical sleeve and the mouth of the hole, a support sleeve is installed on the rod, made in the form of a ring provided with a radial size for its entire length.  10. Anchor according to claim 1 or 2, characterized in that the rod is made straight. 11. Anchor according to claim 1 or 2, characterized in that the rod is made curved in its middle part at an angle of 120-179 ^o .

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