FI13121Y1 - Cladding fastener for concrete element - Google Patents

Abstract

Cladding fasteners for concrete elements, comprising: an elongate rod (7), a socket (8) with a frame (17) and a flange (13) extending from the frame to the side and wherein the first end (11) of the rod (7) has a form-locking means (14) for attaching a concrete element (1) to a concrete frame (3), characterized in that the cladding fastener comprises an intermediate piece (9) and a support rod (6) and the other end of the rod (7) has connecting means (15) for attached to the socket (8) and connecting means (28) for attachment to the intermediate piece (9), the intermediate piece (9) has the connecting member connecting means for connection (23) to the rod and an attachment for attachment (24, 27), the flange (13) forming a laterally extending support shoulder with a gripping member (10) for the support rod (6). In addition, the protection requirements 2-3.

Description

CONCRETE ELEMENT COVERING BRACKET ENGINEERING

The present invention relates to construction technology. In particular, the invention relates to the manufacture and finishing of concrete elements. More specifically, the invention relates to - a fastener according to the preamble of protective claim 1 for fastening the cladding of a concrete element.

BACKGROUND

Concrete elements are the most common components in modern construction. There are several different types of elements used for different uses and structures. One type comprises a reinforced concrete valet8un frame, insulation mounted on the frame and exterior cladding. The external cladding can be a plaster on top of the insulation or an external lining attached to the concrete frame of the element with fasteners, for example a brick cladding. The cladding can carry its own mass, such as brick cladding, or be supported and attached to a concrete frame and insulation such as plaster on top of the insulation. In any case, the insulation and cladding must be attached to the concrete frame with suitable fasteners. For example, with masonry ties, the outer shell of the slit wall is connected to the inner shell. The purpose of masonry ties is to transfer tensile and compressive forces between the shells while allowing limited movement between the shells. Masonry ties are dimensioned for each construction site. The type, model and length of masonry binder are selected and the minimum quantity requirement (pcs / m2) is calculated for each construction type. - Masonry ties are most often also used to secure the building's thermal insulation. One known masonry bandage comprises a steel rod attached to the frame of the concrete element, or the inner shell N, which is mounted on the concrete element by drilling a hole 7 in the concrete frame for the steel rod through the insulation of the element. Against the surface of the insulation, a washer comes to the end 7 of the steel rod, which is pressed and locked against the insulation with a spring steel locking plate. a 25 - The outer end of the steel rod has a loop for gripping the masonry bandage. Masonry bandage = threaded into the loop so that it extends into the masonry joint. There may be different infections for different cladding solutions. The method requires a large amount of installation work because the N masonry ties are attached to the element frame by hand at the construction site. Also, the insulation is not tied to the frame with masonry ties until the masonry ties are installed.

The insulation is usually fastened with separate plastic fasteners, in which case two fasteners are needed, masonry ties and insulation fasteners.

A masonry steel rod can also be installed in the element during casting. In this case, the loop end of the steel rod used to attach the infection extends beyond the surface of the insulating layer. Thus, the solution cannot be used in all manufacturing methods, for example in horizontal casting, because the protruding ends of the steel rods would come against the surface of the mold table.

SUMMARY

The invention relates to a cladding fastener having a concrete-attaching stick of a concrete element, which can be adapted to run in the insulation of the concrete element and a sleeve and means for fastening the cladding to the cladding. The stick is attached to the concrete during the casting of the element.

The invention is characterized by what is stated in the characterizing part of the independent claim.

According to one aspect of the invention, the cladding fastener comprises an elongate rod, a sleeve with a body and a flange extending laterally from the body and a spacer, the first end of the rod having a shape lock wherein the spacer has spacer connecting members for joining the rod and a bracket for the net support, and the flange has a laterally extending support shoulder with a gripping member for the support rod and the support rod.

The cladding bracket according to the invention - according to the second = feature - comprises 3 positioning rings with connecting members for fastening to the sleeve and an opening S for the connecting members for fastening to the spacer.

T a c 25 According to a third aspect of the invention, the gripping member for the support rod is a recess with a bottom with a hole for the support rod.

ä = BRIEF DESCRIPTION OF THE DRAWINGS

Some embodiments of the invention will now be described in more detail with reference to the accompanying drawings, in which: FIGURE 1 is a side view of a cladding fastener according to at least one embodiment; ,

APPLICATIONS

The present cladding fastener relates to the manufacture of cladding structures for concrete elements, in particular cladding structures which are made for prefabricated elements at the construction site. Such are, for example, various brick upholstery and plasters. The part of the cladding fastener that passes through the insulation of the concrete element is an elongated rod which is pushed through the insulation during the manufacture of the element so that its tip extends slightly beyond the surface of the insulation. Attached to the side opposite the tip is a sleeve with a flange against the surface of the insulation. The prefabricated insulation blocks are stacked on a casting table and the concrete layer is poured on top of the insulation. At the opposite end from the tip of the stick to the concrete are the connecting members, in particular the thread. The sleeve is threaded into this thread. The sleeve has a recess - in the middle of which the end of the rod is left. For heavy upholstery and in particular for heavy plastering, it is a support shoulder in the upholstery bracket extending further to the side from the flange, with at least one 0 hole or other gripping member for the support rod. A support rod is fitted to the gripping member, which z 25 - is inserted through the insulation and the tip of which remains in the concrete. a 2 FIGURE 1 shows one cladding fastener, in particular for fastening the plaster net S. In the figure on the left, the masonry bandage is installed in the concrete element 1 and N in the upholstery 2. Here the upholstery and the concrete element are to be understood in general terms and the scope of the invention is not limited to the element solution and types of upholstery now described. - However, the concrete element 1 usually has a concrete frame 3 and an insulating layer 4 on the surface of the concrete frame 3. In the case of Figure 1, the upholstery 2 is plaster. The cladding bracket has a pin 7, a sleeve 8, a spacer 9 and a net support 24. The pin 7 is an elongated steel spike. This steel spike extends at its first end 11 through the insulating layer 4 into the concrete body as shown in the figure. , that the first end 11 of the stick is inside the concrete body of the concrete element 1 and the second end 12 is close to the surface opposite to the concrete body 3 of the insulating layer 4. The flange 13 of the sleeve 8 attached to the other end 12 of the rod 7 is against this surface of the insulating layer. The flange 13 of the sleeve 8 thus locks the concrete element 3 of the insulating layer 4 against the concrete frame 3. A spacer 9 is also attached to the other end 12 of the rod 7.

The rod 7, sleeve 8 and spacer 9 used in the solutions of FIGS. Here, the shape lock is at its tip - a conical thickening. Such a shape is easy to make, for example, on the end of a steel rod, and the conical shape facilitates the insertion of the rod 7 through the insulating layer 4. Alternative shapes include, for example, a transverse brush structure, a wavy design of the rod, a spiral, a spiral, or a tooth. Several suitable designs are known in concrete construction. At the opposite end of the rod is an M5 thread about 50 mm long. In this example, the thread is for engaging the sleeve 8 of the connecting member 15 and at the same time for engaging the spacer 9 of the connecting member 16. Instead of a thread, other locking methods can be used, such as cutting teeth, locking used in cable ties or spring steel tongue. The thread size can be changed. The thread is the preferred method of locking, because it is possible to screw = the plastic sleeve 8 directly into it without counter-threading the sleeve. Likewise, N 25 - since the rod 7 is usually made of steel, the threaded lock is advantageous and fast S manufactures for these parts, reliable and also allows the parts to be removed if necessary.

S I The sleeve 8 comprises a body 17 with a cone 18 at the first end and a flange 13 at the second end. The sleeve 8 is here about its central axis 19 = rotationally symmetrical. In the figure, the central axis 19 is the same for all parts 7, 8, 9 and they are N 30 - assembled with the same axes. The purpose of the cone 18 is to facilitate the protrusion of the sleeve 8 into the insulating layer 8, but other types of design can be used here. The flange 13 here is a circular plate-like flange resembling a washer. Alternatively, a polygonal or winged flange could be used. From the outer surface of the flange 13 of the sleeve 8, a recess 20 starts inside the body 17 and terminates in the shoulder 21 and continues as a hole 22 to the end of the cone 18 of the sleeve 8. The recess 20 and the hole 22 pass through the sleeve 8. The diameter of the hole 22 is dimensioned according to the thread M5 of the rod 7 so that when the sleeve 8 is screwed onto the rod, the thread cuts the threads into the hole. This provides a simple method of attachment. The recess 5 200n is dimensioned so that the thread of the second end 12 of the rod 7 remains free inside the recess 20 and the spacer 9 has a diameter outside inside the recess 20.

The spacer 9 is here a mesh sleeve 26 with a mesh flange 27 at one end and a cylindrical sleeve 28 at the other end. for stick 7. If the net sleeve 26 is made of plastic, it is attached to the end 12 of the rod 7 in the same way as the sleeve 8. If the net sleeve 26 is made of, for example, steel or other metal to achieve sufficient strength, the connecting member locking methods can be - used. In particular, the size and shape of the thread can be varied.

The invention is not limited to any particular material, but since at least portions of the cladding fastener may be exposed to air and moisture, one preferred manufacturing material is austenitic steel. If weather resistance is not required, other steel grades may be suitable. The choice of material is mainly limited by compatibility with concrete. The sleeve 8 and the mesh sleeve 26 are preferably made of a plastic suitable for construction use or even of an alloy.

FIGURES 1 to 3 show a cladding fastener for fastening a plaster net 25 = on the insulating layer 4 of a concrete element 1. Here, the spacer 9 is a plastic mesh sleeve 26 corresponding to the sleeve 7 N. The outer dimension of the body of the mesh sleeve 26 is made to fit the recess 20 of the sleeve 8 and there is a hole inside it which is smaller than the thread of the MS. = When plastering on the insulation layer 4, a plaster net 25, E is required on top of the insulation layer 4, with which the plaster is fixed and uniform. The plaster net 25 is attached to the thread of the rod 7 inside the sleeve 8 © by screwing. Inside the mesh sleeve 26 there is a hole which is x smaller than the M5 thread. The net sleeve 26 is threaded into the needle 7 when threaded. O 30 - The plaster net 25 is left between the surface of the insulating layer 4, the flange 13 of the sleeve 8 and the flange of the net sleeve 25>. This method of attachment can be used not only to attach the plaster net but also to attach other planar spacers or coatings. These could even be dampers, membranes and similar surface coverings.

For heavy upholstery, it is advantageous to remove the plaster net from the surface of the insulator 4. At the same time, there is a need to increase the load-bearing capacity of the cladding bracket. In order to increase the load-bearing capacity, the cladding bracket has an expanded flange 13 which forms a support shoulder 5. This support shoulder 5 can be formed so that the hole 22 of the sleeve 8 is placed eccentrically on the or square. A hole 10 is made in this support shoulder 5. In this case, the hole 10 of the support rod 6 is formed by a recess whose base is oblique to the axis of the stick 7 and the hole 10 of the support rod is at right angles to the bottom of the recess. A support rod 6 is fitted in the hole 10 of the support rod, which comes at an angle determined by the position of the base to the oblique axis of the rod 7. Since the support rod 6 is intended to receive the load due to the weight of the plaster, it is advantageous to place it directly above the rod 7 and its tip 29 is directed upwards, whereby the tension load is applied to the support rod 6. Of course, the support rod receives the load in other positions as well. The tip of the support rod has a roughening, thread or other form of locking to adhere to the concrete. At the opposite end of the tip there is a base flange 30 which rests on the bottom of the hole 10 of the support rod and partially positions the support rod 6. However, a sufficiently long hole and recess provide good positioning and support.

When performing thick plastering, it is advantageous to have the plaster net 25 at a distance S from the surface of the insulation. In contrast, the cladding bracket has a positioning ring 31. it 25 - The positioning ring 31 here consists of an open ring 32 and four spike legs 33 formed on one edge of the open ring 0. The flange 13 of the sleeve 8 has holes 34 corresponding to the spike legs 34. The positioning ring 31 can be attached 33 through the holes 34 of the spike leg of the flange 13 to the insulator. Thus = the positioning ring 31 is positioned and fastened to the insulator 4 by means of the spike legs 34. N 30 —Another locking and positioning method can be used instead of the spike legs 34. such as S edge recess, thread, quick release or even push-through spikes. the positioning ring may have other shapes, but must have a free opening or cut at the hole 22 in the sleeve 8 for mounting the mesh sleeve 26. The thickness of the positioning ring determines the distance of the plaster net 25 from the insulator 4.

The cladding fastener described above is used in particular in connection with concrete elements produced by horizontal casting. In this case, the rods 7 are pre-cast - on the concrete frame 3 and the sleeve 8 is fastened to the rod 7. In this way, the thread of the pin 7 remains visible for attachment to the spacer 9. The sleeve 8 does not need to have an M5 thread ready, but the thread is formed when the sleeve is threaded into the steel rod 7. For insertion, the recess 20 in the sleeve 8 may have a hexagonal shape or other similar shape for a threading tool. Similarly, if a different fastening method is used instead of a thread, the tools are selected according to the fastening. The prepared stick 7 with its sleeves 8 is pressed through the insulation and the support stick 6 is pressed into place, after which the insulation is stacked on the mold table. Once the insulation has been laid into the insulation layer 4, the concrete is poured - on top of the insulation layer 4. The hardening concrete locks the rods in place and the bushings 8 and the rods 8 and support rods 6 passing through the insulation layer 4 fix the insulation layer to the concrete frame 3. The spacers 9 and positioning rings are fixed and cladding on site - by pressing - positioning rings 31 = flanges. - the plaster net - enters between the positioning ring 31 and the flange 27 of the net sleeve 26 as shown in Figure 2.

A hexagon socket or other mating surface for the threading tool may also be in the mesh sleeve.

The above dimensions and materials are only examples of one area of application of the invention. It is clear that the dimensioning and material selection is made according to the application N, taking into account e.g. insulation thickness, structural loads and & 25 environmental loads on materials.

S E: INDUSTRIAL APPLICABILITY

R 5 The invention can be used in the construction industry. :> LIST OF REFERENCE NUMBERS 1 concrete element

2 cladding 3 concrete frame 4 insulation layer support shoulder 5 6 support rod 7 rod 8 sleeve 9 spacer support rod hole 10 11 first end 12 second end 13 flange 14 form lock for attaching the connecting member to the sleeve 15 16 connecting member for gripping the spacer 17 frame N 18 cone

O

N 3 19 center axle

S embedding

I and m o © 20 21 olake

PP S 22 hole

OF

N> 23 spacer connecting members for connecting to the rod 24 network support

25 plaster net 26 net sleeve 27 net flange 28 cylindrical sleeve 29 tip 30 base flange 31 positioning ring 32 open ring 33 spike leg 34 spike leg hole

OF O OF

O <Q

LO O

I a a ©

MN 5

O OF O

N> ”

Claims (3)

PROTECTIVE REQUIREMENTS Cladding fasteners for the concrete elements, comprising: - an elongate rod (7), - a socket (8) with a frame (17) and a flange (13) extending from the frame to the side and - where the first end of the rod (7) ( 11) has a mold reading means (14) for attaching a concrete element (1) to a concrete frame (3) characterized in that - the cladding fastener comprises a spacer (9) and a support rod (6) and - the other end of the rod (7) has connecting means ( 15) for attachment to the socket (8) and connecting means (28) for attachment to the intermediate piece (9), - the intermediate piece (9) has the connecting means for connecting the intermediate piece (23) to the rod and an attachment for attachment (24, 27), The flange (13) forms a laterally extending support shoulder with a gripping member (10) for the support rod (6). Cladding fastener for the concrete elements according to claim 1, characterized in that the cladding fastener comprises a positioning ring (31) with connecting means (33) for fastening to the socket (8) and an opening at the point for connecting means (22) intended to be fastened to the intermediate piece (9). , 26). Cladding fastener for the concrete elements in accordance with protective requirements 1 or 2, 0 characterized in that for the support rod (6) of the gripping means a recess provided with a bottom is provided with a hole (10) for the support rod (6). 0 O I a a © K 5 O N O N> ”