RU2757514C1 - Waterproofing dowel - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to waterproofing dowels, more specifically to formwork dowels used in construction of foundations, walls, floor slabs, buried objects, etc. The waterproofing key is made in form of ribbon profile and is characterized by presence of sealing zones with fixing anchors and working area with deformation joint having side walls. The side walls of deformation joint have protruding elements directed towards the formed deformation seam of the structure being erected. The height of side walls protruding elements of deformation joint is greater than the distance from the side wall of deformation joint to the axis of the nearest fixing anchor.

EFFECT: exclusion of cement slurry flow and displacement of waterproofing dowel from its design position during concreting is achieved.

4 cl, 9 dwg

Description

The invention relates to waterproofing dowels, more specifically to formwork dowels used in the arrangement of foundations, walls, floor slabs, recessed objects, etc.

In fact, a waterproofing dowel (waterstop) is a waterproofing tape that fills in cavities. It is installed in seams and joints when concreting structures. One of the mandatory requirements is elasticity and effective resistance to water movement.

In Russia, the first waterproofing dowels appeared in the 50s of the 20th century. Then they were made of metal, so they did not give such high-quality sealing. The adhesion of metal to concrete is lower, and the number of displacement cycles of the expansion joint is very limited.

The first rubber dowels appeared in the 60s. Their assortment has gradually expanded. The use of such insulating tapes in construction has become much more convenient and efficient. Soon, polyvinyl chloride also appeared, which did an excellent job in conditions where other materials did not fit.

The formwork dowels are installed directly on the formwork sheet from the side of the expected water pressure. The number of anchors is determined by the width and profile of the key. The wider the key and the more anchors, the more pressure the seam can withstand.

The form of the formwork waterstop allows you to reliably embed it into the concrete structure. And the ribbed surface prevents moisture from penetrating into the structure. Welding of waterstops to each other is carried out at the construction site with a heated butt tool. The technological process of welding waterstops consists in heating (melting) the surfaces to be welded to the viscous-flow state of the polymer in direct contact with a heated tool and subsequent connection under pressure.

Formwork waterstops can be installed in almost any concrete and reinforced concrete structure.

From the prior art, a reinforced concrete non-removable wall formwork is known, consisting of two thin-walled flat reinforced concrete slabs, one of which was formed later than the other, connected by a spatial reinforcing cage, the lower and upper chords of which are located in the concrete of the slabs, while to the slab, formed later, along its inner vertical edge is rigidly mounted with a waterproofing dowel made of elastic material (see RU 178930 U1 of 04/23/2018).

The presence of a waterproofing dowel in this design ensures the tightness of the vertical technological seam of concreting while maintaining the bearing capacity of the precast monolithic wall and excludes water seepage into the premises through the vertical technological seams.

The disadvantage of the waterproofing dowel used in this design is insufficiently reliable waterproofing properties, due to which the flow of cement laitance occurs during concreting, as well as the absence of a deformation unit that provides a guaranteed thickness of the expansion joint.

From the prior art, waterproofing dowels are known in the form of a profiled tape made of elastic waterproofing materials, which are placed in the joints or seams of mating building structures during their concreting. Such a profiled tape contains fixing anchors and sealing ribs, which form at least five zones: a working zone, two sealing zones and two zones for fixing the key in the reinforcement cage. The middle part of the working area is supplemented with a deformation unit in the form of a closed or open polygon. Structurally, the deformability of such keys without stretching the material is limited to 2 times the width of the expansion joint. This makes it impossible to use them in the case of movements in the amount of three to five times the width of the expansion joint (150-250 mm) (Shilin A.A., Zaitsev M.V., Zolotarev I.A., etc. Waterproofing of underground and buried structures at construction and repair: Textbook. - Tver, publishing house "Russian trade mark", 2003, - pp. 367-377).

The closest of the known prior art is a device for the complex sealing of expansion joints in reinforced concrete slabs, containing a sealing waterproofing gasket, a filler of the seam cavity made of an elastoplastic material, which is made in the form of a double-folded sheet of polyethylene foam in a U-shape, in the upper part of the seam a harness of elastic material, on top of which a layer of sealant with a primer is applied, and in the abutting sections of the plates, wells are made at an acute angle to the expansion joint, filled with a polyurethane two-component resin, a sealing waterproofing gasket is installed in the lower part of the expansion joint, with its overlap (see RU 129119 U1 dated 20.06 .2013).

Despite the presence of a deformation unit, the disadvantages of the known sealing waterproofing strip can be attributed to insufficiently reliable waterproofing properties, due to which the flow of cement laitance occurs during concreting, as well as its insufficiently reliable interaction with the formwork and the complexity of preliminary centering.

The technical problem to be solved by the present invention is to create a simple, reliable in operation and technologically advanced in the production of a waterproofing shuttering key, providing ease of installation before concreting, ease of centering and increasing waterproofing properties.

The technical result achieved in this case is to exclude the flow of cement laitance and the displacement of the waterproofing dowel from the design position during concreting.

The technical result is achieved due to the fact that the waterproofing key is made in the form of a strip profile and is characterized by the presence of sealing zones with fixing anchors and a working zone with a deformation unit having side walls. The novelty is that the side walls of the deformation unit have protruding elements directed towards the formed expansion joint of the structure being erected.

In this case, it may be advisable to design the protruding elements of the side walls of the deformation unit with a height greater than the distance from the side wall of the deformation unit to the axis of the nearest fixing anchor.

It may also be advantageous if sealing ribs are provided in each sealing zone between the locking anchors, and fastening zones are provided along the edges of the strip profile.

The execution of the side walls of the deformation unit with protruding elements makes it possible to exclude the flow of cement laitance during concreting by overlapping the gap between the formwork and the upper wall of the deformation unit with the said protruding elements.

In addition, the protruding elements of the walls of the deformation unit make it possible to exclude the displacement of the waterproofing key from the design position during concreting by fixing the said protruding elements with a formwork shield or a filler of the expansion joint.

The implementation of the protruding elements of the side walls of the deformation unit with a height greater than the distance from the side wall of the deformation unit to the axis of the nearest fixing anchor, allows to optimize the process of mounting the formwork, which also helps to exclude the leakage of cement laitance and displacement of the waterproofing key from the design position.

The sealing ribs made in each sealing zone between the fixing anchors, as well as the fixing zones made along the edges of the strip profile, contribute to a more reliable fixation of the waterproofing dowel and prevent its displacement.

Further, the proposed invention will be disclosed in more detail, with reference to graphic materials, on which:

fig. 1 and FIG. 2 - schematically shows the appearance and structural elements of the proposed waterproofing dowel;

fig. 3 - schematically shows one of the possible options for installing the formwork;

fig. 4 (a), fig. 4 (b), fig. 4 (c) - a diagram of the placement of the formwork, the stages of concreting and the formation of an expansion joint;

fig. 5 (a), fig. 5 (b), fig. 5 (c) - a diagram of the placement of the formwork with the expansion joint filler, the stages of concreting and the formation of the expansion joint.

It should be noted that one of the preferred embodiments of a waterproofing dowel made of known materials is disclosed below.

The waterproofing dowel is a strip profile (1), which can be made of any suitable elastic material - rubber, including reclaimed rubber, polyvinyl chloride (PVC) and its varieties, thermoplastic, thermoplastic elastomer, etc.

On the strip profile 1, projections are made in the form of fixing anchors 2, sealing ribs 3 and a deformation unit 4.

Fixing anchors 2, sealing ribs 3 and deformation unit 4 are made with the possibility of forming functional zones: working (central) zone 5, two sealing zones 6 and two zones 7 for fastening the waterproofing dowel to the base or formwork.

Fixing anchors 2 and sealing ribs 3 are designed for reliable and tight fixation of the strip profile to the surface of the structure being erected.

Deformation unit 4 is necessary to form an expansion joint designed to reduce the loads on structural elements in places of possible deformations arising from fluctuations in air temperature, seismic phenomena, uneven soil settlement and other influences that can cause dangerous intrinsic loads that reduce the bearing capacity of structures. An expansion joint is a kind of cut in the structure of a building, dividing the structure into separate blocks and, thereby, imparting a certain degree of elasticity to the structure. For the purpose of sealing, the expansion joint is filled with insulating material.

For the convenience of installing the waterproofing dowel, increasing the convenience of its centering, as well as improving its waterproofing properties, the side walls 8 of the expansion unit have protruding elements 9 directed towards the formed expansion joint of the structure being erected.

The protruding elements 9 are, in essence, a continuation of the side walls 8 of the deformation unit 4 and are made with the possibility of elastic deflection at an angle of 90 ° or more from their design position. Such a design makes it possible to "fold" the protruding elements 9 during storage in the coil, as well as to bend one or the other protruding element 9 when concreting a part of the structure (see Fig. 3).

The height of the protruding elements - 9 is preferably greater than the distance from the side wall 8 of the deformation unit 4 to the axis of the nearest fixing anchor 2 (see Fig. 3).

Installation of the proposed key and the process of concreting with the formation of an expansion joint are carried out as follows.

The key is installed and fixed in the design position, symmetrically relative to the seam axis.

When installing, the dowels ensure tightness in the places where it adjoins the formwork to prevent the flow of cement mortar during concrete work.

The dowel is fastened to the wooden formwork with nails. In other cases (for example, the installation of formwork dowels on a concrete base 10), adhesives are used for fastening.

As a filler 11 of the expansion joint cavity, expanded polystyrene, foam or similar materials are used, based on the condition that the material used should provide the design size of the expansion joint gap during concrete work and free compression / opening of the joint, without stress in the mating structural elements during the operation of the structure ... The filler 11 of the cavity of the expansion joint is fixed with an adhesive based on the condition that the method of fastening should exclude the possibility of displacement of the filler 11 of the cavity of the expansion joint from the design position during concrete work.

The key is installed in the design position in the gap between the formwork panels 12 along the entire length of the concreted area. The joint sections of adjacent formwork panels and dowels are made sealed, with geometric invariability when placing concrete in the formwork.

After installing the key in the formwork, the surface of the key and its design position are inspected.

FIG. 5 (a, 6, c) shows the stages of concreting, when the filler of the expansion joint cavity is installed immediately, in front of the formwork panel, and in Fig. 4 (a, 6, c) shows the stages of concreting, when the filler of the expansion joint cavity is installed after removing the formwork panel.

Thus, the proposed waterproofing dowel is simple, reliable in operation and technological in production, eliminates the flow of cement laitance and retains its design position during concreting.

Claims (4)

1. Waterproofing dowel made in the form of a strip profile and characterized by the presence of sealing zones with fixing anchors and a working zone with a deformation unit having side walls, characterized in that the side walls of the deformation unit have protruding elements directed towards the formed expansion joint of the structure being erected. 2. The waterproofing key according to claim 1, characterized in that the height of the protruding elements of the side walls of the deformation unit is greater than the distance from the side wall of the deformation unit to the axis of the nearest fixing anchor. 3. The waterproofing dowel according to claim 1, characterized in that in each sealing zone between the fixing anchors, sealing ribs are made. 4. Waterproofing dowel according to claim 1, characterized in that fastening zones are made along the edges of the strip profile.

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