RU2306391C1 - Retained form tie - Google Patents

Abstract

FIELD: building structures, which use connectable form modules to create walls and foundation in addition to system adapted to construct building structure by retained form filling with concrete so that the retained form constitutes part of building structure.

SUBSTANCE: retained form tie comprises partition with transversal slots for reinforcement members receiving. Each partition edge is provided with end member having two spaced apart plates transversal to partition axis and connected with tie members. One transversal plate of each end member is end plate. Each end member is provided with at least one orifice made in end plate. The orifice passes into slot created in tie member and parallel to longitudinal partition axis. Partition is made as plate widening towards end members so that stiffening ribs are created. Weakened line extends along longitudinal partition axis. Weakened lines are also created in said transversal plates of end members and are aligned with weakened line of partition. Weakened lines of transversal plates are transversal to partition plane. Tie member of each end member is shaped as plate arranged in partition plate plane.

EFFECT: extended technological capabilities, namely creation of all-purpose tie to be used during lower and upper retained form belt panels assembling.

9 cl, 4 dwg

Description

The invention relates to building structures using connectable formwork modules to create wall structures, foundations, to a system for creating structures by filling concrete with fixed formwork, which becomes part of the structure. The invention can find application in the construction of a mortgage element - a transverse coupler connecting the opposed panels of fixed formwork.

Known transverse coupler, which is the embedded element of the modular design of fixed formwork, described in the patent of the Russian Federation [RF patent 2081263, MKI E 04 2/00, publ. 1997]. The transverse coupler has a central cylindrical element, from which triangular vertically oriented plates extend, on which the rods are fixed to fix the longitudinal reinforcement. Triangular holes are made in the plates. The screed at the edges is equipped with T-shanks in terms of shape with a transverse plate at the end. The main disadvantage of this design is the need to perform T-grooves in the body of the walls of the formwork to fix the shanks of the screeds in them.

A transverse screed used in a building module was selected as a prototype [patent for utility model of the Russian Federation 29737, publ. 04/27/03]. The coupler has a jumper, which is a rod. On the upper and lower surfaces of the lintel there are transverse grooves designed to fix the reinforcement elements. A trailer is made at each end of the jumper having its own coupler in the form of a rod, which is a continuation of the jumper rod. On both sides of the trailer there are two plates perpendicular to the jumper. One of the plates is installed directly on the end of the jumper, and the second plate is removed from it by a distance equal to the thickness of the formwork panel, and is the end. The coupler is additionally equipped with ribs extending from the bridge and reinforcing the rigidity of the structure. In the end plate there is an opening that goes into the groove in the trailer coupler.

The coupler is equipped with at least one removable trailer, which is a continuation of the coupler. The removable trailer has a rod mounted coaxially to the jumper. At the free end of the removable trailer there is a transverse end plate. To carry out the connection of these parts on a removable trailer from the side opposite the end plate, a protrusion in the form of a pin of variable cross section (with teeth) is made. To attach a removable trailer to the coupler, a pin is inserted into the hole in the end plate with force.

The main disadvantage of the prototype is that when installing the screed on the upper tier of the fixed formwork, the ribs and end plates protrude beyond the upper surface of the formwork panel, which interferes with further installation. To prevent this from happening, special screeds are used for the upper tier.

The basis of the invention is the task of expanding technological capabilities, namely the creation of a universal screed that could be used both for the installation of panels of the lower tiers of fixed formwork and for panels of the upper tier.

The problem is solved by changing the design of the screed.

The screed for fixed formwork has a jumper with transverse grooves for installing reinforcement elements. On each of the boundary parts of the jumper there is a trailer with two spaced apart plates perpendicular to the axis of the bridge and connected by a coupler coupler. One of the perpendicular plates of each trailer is an end plate. Each trailer has at least one hole in the end plate, which passes into a groove in the coupler coupler, parallel to the longitudinal axis of the bridge. The screed differs from the prototype in that the jumper is made in the form of a plate expanding towards the end pieces with the formation of stiffeners. A line of weakened strength is made along the longitudinal axis of the bridge. Also, the lines of weakened strength are made on the said perpendicular end plates. Their lines of weakened strength are located at the level of the line of weakened strength of the jumper and are oriented perpendicular to the plane of the jumper. The coupler of each trailer is made in the form of a plate lying in the plane of the jumper plate.

The line of weakened strength can be made in the form of perforations perpendicular to the plane of the bridge.

The coupler may have at least one removable trailer with a longitudinal plate and an end plate perpendicular to it and with a protrusion having a serrated side surface and located on the longitudinal plate on the opposite side of the end plate, and intended to be deepened into the groove in the coupler coupler. In the end plate of the removable limit switch there is an opening that passes into the groove in the longitudinal plate of the removable limit switch. The coupler may have at least one additional removable end mating with the removable end and having a longitudinal plate and an end plate perpendicular to it, the longitudinal plate is provided with a protrusion having a serrated side surface and located on the opposite side from the end plate. The protrusion is intended for deepening into a groove in the longitudinal plate of a removable trailer. The end plates of the removable trailer and additional removable trailer have lines of weakened strength, oriented perpendicular to the plane of the bridge.

In more detail the essence of the invention is disclosed in the following implementation example and is illustrated by the figures of the drawings, which show: FIG. 1 - screed, front view, FIG. 2 - screed, top view. Figure 3 - screed, side view. Figure 4 - removable trailer, front view.

The coupler for removable formwork has a jumper 1, made in the form of a vertically oriented (in working condition) shaped plate. On the upper and lower edges of the plate there are transverse grooves 2 for installing reinforcement elements. On the edge of the screed there is a trailer, which is a continuation of the screed. Each trailer has in its composition two plates 3, 4, perpendicular to the plane of the bridge. The end plates 4 are end plates. Between the plates 3, 4 there is a tie rod 5, which is a plate lying in the plane of the jumper plate 1. In the end plates 4 there is a hole 6. It is preferable to make two holes 6 located symmetrically. Each hole 6 goes into a longitudinal groove 7 in the coupler 5 of the trailer. The groove 7 may have serrated edges.

A line of weakened strength is made along the longitudinal axis of the web, namely perforation. Holes 8 pass through the jumper and go from edge to edge of the jumper. On the plates 3, 4 also made lines of weakened strength, for example, in the form of grooves 9. The grooves 9 are located at the level of the longitudinal axis of the jumper 1 and are oriented perpendicular to the plane of the jumper. A longitudinal groove 10 is made along the longitudinal axis of the coupler 5 of the trailer.

When installing the lower tiers of fixed formwork, the ends of the couplers are buried in the grooves on the upper and mating lower faces of the wall panels and thereby fix the relative position of the internal and external formwork panels. In this case, the end panels protruding outward extend onto the outer sides of the upper tier panels, which does not interfere with further installation.

When installing the panels of the upper tier, half of the screed is used. To do this, the screed described above is broken along the lines of weakened strength along the longitudinal axis of the screed and along the limiter plates, and two equal halves are obtained, each of which is used as a separate screed. In this case, the upper face of the screed is the fault line and it is installed flush with the upper face of the wall panels of the last tier. Thus, there are no protruding upward parts of the screed, which does not prevent further installation of the formwork.

The jumper 1 expands towards the limit switches, forming stiffeners 11, additionally fixing the position of the limit switches.

The screed can be additionally equipped with at least one removable end (Fig. 4), which is a continuation of the screed and allows, if necessary, to install additional wall panels, increasing the thickness of the formwork or the thickness of the supporting concrete structure. The removable trailer has a longitudinal plate 12 and an end plate 13 perpendicular to it. Two protrusions 14 having fins are located on the opposite side of the end plate. The protrusions 14 are located symmetrically with respect to the longitudinal axis of the removable end plate and at the same distance as the grooves 7 of the coupler end. In the event that there is only one groove 7 on the end of the coupler, there is one protrusion on the removable end 14. The end plate 13 has a line of weakened strength 15 in the form of a groove made similar to the above-described groove 9. Holes 16 can be made on the end plate 13 , which go into the grooves 17. On the longitudinal plate of the removable trailer also has a line of weakened strength, passing along its axis. A removable trailer is put on the trailer coupler by introducing its protrusions 14 into the grooves 7 through the holes 6 in the end plate. When mounting the lower tiers of the formwork, a one-piece removable trailer is used. When installing the upper tier of the formwork, the removable trailer, as well as the screed itself, also breaks along the lines of weakened strength and half of the removable trailer is used. Thus, there are no protruding upward parts of the removable trailer, which does not interfere with the further installation of the formwork.

If it is necessary to further increase the thickness of the formwork or the thickness of the supporting concrete structure, an additional removable trailer can be installed. It has the same design as the detachable limit switch described above. With their protrusions on the longitudinal plate, an additional removable trailer is introduced into the grooves 17 through the holes 16 in the end plate of the removable trailer. When installing the upper tier, only half of the additional trailer is also used.

Removable limit switches and additional removable ends can be installed on both sides of the screed.

Thus, the new design is universal and can be used both for the installation of panels of the lower tiers of fixed formwork, and for panels of the upper tier.

Claims (9)

1. A coupler for fixed formwork having a jumper with transverse grooves for installing reinforcing elements, on each of the edge parts of the jumper there is a limit switch with two spaced apart plates perpendicular to the axis of the bridge and connected by a trailer coupler, one of the perpendicular plates of each trailer is an end , in each trailer there is at least one hole in the end plate, turning into a groove in the coupler coupler, parallel to the longitudinal axis of the jumper, characterized in that the jumper made in the form of a plate expanding toward the end with the formation of stiffeners, a line of weakened strength is made along the longitudinal axis of the jumper, the lines of weakened strength are also made on the said perpendicular plates of the ends, their lines of weakened strength are located at the level of the line of weakened strength of the jumper and are oriented perpendicular to the plane of the jumper and the coupler of each trailer is made in the form of a plate lying in the plane of the jumper plate. 2. The screed according to claim 1, characterized in that the line of weakened strength is made in the form of perforations perpendicular to the jumper plane. 3. The coupler according to claim 1, characterized in that it further has at least one removable end with a longitudinal plate and an end plate perpendicular to it and with a protrusion having a serrated side surface and located on the longitudinal plate on the opposite side of the end plate and intended for deepening in a groove in a coupler trailer. 4. The coupler according to claim 2, characterized in that it further has at least one removable end with a longitudinal plate and an end plate perpendicular to it and with a protrusion having a serrated side surface and located on the longitudinal plate on the opposite side of the end plate and intended for deepening in a groove in a coupler trailer. 5. The coupler according to claim 3, characterized in that in the end plate of the removable limit switch there is an opening that passes into the groove in the longitudinal plate of the removable limit switch. 6. The coupler according to claim 4, characterized in that in the end plate of the removable limit switch there is a hole turning into a groove in the longitudinal plate of the removable limit switch 7. The screed according to claim 5, characterized in that it has at least one additional removable end mating with the removable end and having a longitudinal plate and an end plate perpendicular to it, the longitudinal plate is provided with a protrusion having a toothed side surface and located with the opposite side of the end plate and intended for deepening into the groove in the longitudinal plate of the removable trailer. 8. The screed according to claim 6, characterized in that it has at least one additional removable end mating with the removable end and having a longitudinal plate and an end plate perpendicular to it, the longitudinal plate is provided with a protrusion having a toothed side surface and located with opposite side from the end plate and intended for deepening into the groove in the longitudinal plate of the removable trailer. 9. The coupler according to any one of claims 3 to 8, characterized in that the end plates of the removable limit switches and additional removable limit switches have lines of weakened strength oriented perpendicular to the jumper plane.

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