RU202052U1 - CONSTRUCTION SCREED - Google Patents

Abstract

This utility model relates to building structures, in particular to formwork fasteners, insulation and finishing materials. The technical result of the proposed utility model is to increase the tension of the structures, to simplify and reduce the cost of the screed construction. The technical result is achieved by the fact that in the construction screed, containing at each end a shank with grooves for installing a retainer-limiter, reinforcement is used as a tie rod, and of the retainer, a reinforcement retainer is used, the shanks are obtained by molding from polymer, including reinforced materials. On the shank on the side of the reinforcement, a stop is made perpendicular to the reinforcement or at an angle, the grooves for installing the retainer are parallel to the stop. The shank is made in the form of a herringbone with the ability to move the latch along the axis of the shank. A shank can be made at one end for the use of a construction tie as a flexible connection. 3 C.p. f-ly, 3 dwg

Description

This utility model relates to building structures, in particular to formwork fasteners, insulation and finishing materials.

Tie screws with special nuts and a spacer insert (for example, GOST R 57899-2017), or a spring clip (formwork lock, formwork clip, "frog") are used as building ties to secure the formwork in monolithic construction, which can withstand heavy loads, but with erection of the formwork of low-rise buildings and non-removable formwork is extremely expensive and ineffective. The tightening screws provide for the removal of the screw, after which a through hole is formed. The spring clamp is used with metal fittings, which subsequently serve as a cold bridge and, due to the exit to the end of the structure, is subject to corrosion.

A construction screed is known (RU 190658, E04G 17/06, 07/08/2019), containing two elements connected to each other to form a jumper, at each end of the jumper there is a shank with grooves for installing a stopper plate, while the jumper elements have at least at least one protruding locking element and corresponding grooves, in the upper part of the locking element there is a retaining protrusion interacting with the grooves, and at least one cutout is made along the vertical axis. At each end, perpendicular to the lintel axis, two plates are installed, one of which is a retainer and is located at the end, and the second, internal, is removed from it at a distance equal to the thickness of the wall panel.

Composite screeds are universal in operation, however, due to the presence of fixation of the constituent parts, it may open or deform when pouring a building mixture, or other external influences. Ties are made of thermoplastic polymers and serve only as non-removable spacers, not being a transverse reinforcement of the structure. Composite screeds withstand a low load, are quite expensive and do not allow pretensioning of formwork and reinforcement.

The technical result of the proposed utility model is to increase the strength of the screed and operational reliability, simplify and reduce the cost of the screed structure, and use the screed for reinforcement.

The technical result is achieved by the fact that in a construction screed, containing at each end a shank with grooves for installing a retainer-limiter, an armature is used as a tie rod, passing through the entire length of the tie, and a reinforcement retainer is used as a retainer, the shanks are obtained by molding from polymer, including reinforced materials, the reinforcement runs inside the shank. On the inner part of the shank, a stop is made perpendicular to the reinforcement or at an angle, the grooves for installing the retainer are parallel to the stop. The shank is made in the form of a herringbone with the ability to move the latch along the axis of the shank. The reinforcement for the tie rod is made of fiberglass or basalt-plastic, which serves as reinforcement in the transverse direction and reinforcement of longitudinal and vertical reinforcement is attached to it. A shank can be made at one end of the reinforcement to use a construction tie as a flexible connection.

The present utility model is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

FIG. 1 shows the construction of a screed with an emphasis perpendicular to the axis of the reinforcement; in fig. 2 construction of a screed with an emphasis at an angle to the axis of the reinforcement; in fig. 3 example of using a construction tie with one shank as a flexible tie.

The construction screed contains a rod, which is a polymer reinforced reinforcement 1, extending over the entire length of the screed. At the ends of the tie, shanks 2 are made, by casting from polymer, including reinforced materials. The shank is made in the form of grooves or herringbone with the ability to move the latch along the axis of the shank. On the inner part of the shank 2, a stop 3 is made perpendicular to the reinforcement (Fig. 1) or at an angle (Fig. 2), the grooves 4 for installing the retainer are parallel to the stop. As the retainer of the formwork, insulation and finishing materials, the retainer 5 of the reinforcement is used. The latch 5 goes into the groove 4 and is securely fixed in it. When axially acting on the retainer 5 along the axis of the shank 2 towards the stop 3, the retainer moves along the inclined surface 6 to the next groove, thereby achieving the tension of the tie and a snug fit with the material to be fixed 7. The building tie also performs a reinforcing function, since it is reinforcement between the shanks, on which, in turn, longitudinal and vertical reinforcement (not shown) is attached.

FIG. 3 shows a variant of a tie with one shank 2 at the end of the rod 1 for the use of a construction tie as a flexible connection.

A building screed is a one-time use building element (consumable material), used as follows.

On the wall of the removable or non-removable formwork, the screed installation sites are marked and holes are drilled. Then set in the hole on the side of the inner wall of the formwork shank 2 of the tie until the stop of the retainer 5 in this wall. In this case, the shank is passed through the hole and brought out to the outer surface of the formwork wall. Similar operations are carried out on the other (opposite) wall of the formwork. The latch 5 is installed in the groove 4 closest to the wall on each side. And, if necessary, perform axial action on the lock 5 along the axis of the shank 2, as a result of which the lock 5 moves along the inclined surface 6 to the next groove.

Longitudinal reinforcement bars are laid on the tie rod at a given distance and vertical bars are installed, reinforcement is tied at the intersection points. Next, the mixture is poured with vibration compaction or bayonetting. After the mixture has solidified, when using a screed in a fixed formwork, the retainer 5 is moved into the formwork material until it is hidden along the plane, the protruding part of the shank 2 is cut off. When using a screed in a collapsible formwork, the retainer 5 is removed, the formwork is disassembled, and the protruding part of the shank 2 is cut off. Polymer fittings and shank are not subject to corrosion and are not cold bridges.

When using a tie with one shank 2 as a flexible connection, the free edge of the reinforcement is laid into the wall masonry 8 when it is erected with a given step and at a given depth. After the wall is erected, the insulation 7 is put on the protruding shanks and the retainer 5 is installed, so that the retainer does not protrude beyond the outer plane of the insulation 7. It is also possible to attach the frame of finishing materials to the shanks 2.

The proposed design of the screed is easy to manufacture, reliably fixes the structure, is resistant to mechanical loads during the construction of the structure, withstands large efforts of the screed structures, the screed also performs reinforcing functions.

Claims (4)

1. A construction tie, containing at each end a shank with grooves for installing a retainer-stop, characterized in that a reinforcement is used as a tie rod, and a reinforcement retainer is used as a retainer, and the shanks are obtained by molding from polymeric materials, and the reinforcement passes inside the shank ... 2. A construction screed according to claim 1, characterized in that on the shank on the reinforcement side, a stop is made perpendicular to the reinforcement or at an angle, and the grooves for installing the retainer are parallel to the stop. 3. A construction tie according to claim 1, characterized in that the shank is made in the form of a herringbone with the ability to move the latch along the axis of the shank. 4. A construction screed according to claim 1, characterized in that the shank is obtained by molding from polymer reinforced materials.

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