RU177263U1 - ELEMENT FOR FORMING SHIELDS - Google Patents

Abstract

A utility model relates to an element of shuttering panels containing a sleeve and shuttering profile of a closed box section. The element of the shuttering boards contains a sleeve in the form of a truncated cone and a welded shuttering profile of a closed box section. The larger base of the truncated cone of the sleeve has a diameter of 32 mm, and the smaller one has a diameter of 28 mm. The shuttering profile contains a lower shelf and an upper supporting platform with a hollow, which are adjoined by a vertical end stand with a hollow and a bend in its upper part and a back stand with a castle hollow formed on it. The castle cavity has a cross section in the shape of a trapezoid, the outer end of the upper surface of which is aligned with the end of the supporting platform. The weld is located on the supporting platform, at a distance from the end of the supporting platform from the back of the rack equal to 20-40% of the length of the supporting platform. The height of the said trapezoid is also equal to 20-40% of the length of the supporting platform. The lower surface of the castle cavity is located at an angle α = 100 ... 120 ° to the vertical part of the rear pillar to the castle cavity. The upper surface of the castle cavity is located at an angle β = 20 ... 40 ° to the supporting platform. The lower shelf is made with the first hole, the upper supporting platform is made with the second hole. The sleeve is inserted into the aforementioned holes of the formwork profile and is fixed to the upper supporting platform and lower shelf by welding. The second hole is located on the upper supporting platform at a distance of its edge from the weld, equal to 1 ... 4 thickness of the tape formwork profile, in the direction of the end stand. As a result, the strength of the formwork panel element is increased. 1 ill.

Description

The utility model relates to the field of construction, namely to the structural element of formwork panels containing a sleeve and a welded formwork profile of a closed box section, and can be used in the manufacture of formwork panels used in the construction of monolithic buildings and structures for various purposes.

An analogue of the claimed utility model is an element of shuttering boards (RU 85523 U1, 08/10/2009) containing a conical sleeve and a shuttering formwork profile of a closed box section, containing a lower shelf and an upper supporting platform, which are joined by a vertical end stand with a bend in its upper part and the back a stand with a castle depression formed on it, the outer end of the upper surface of which is aligned with the end of the supporting platform, while the lower shelf is made with the first hole, the upper supporting platform is made with the second hole pation, coaxial with the first opening, the sleeve is inserted into said hole formwork profile and fastened to the upper support platform and the bottom shelf, wherein the larger base of the truncated cone of the sleeve is disposed in the first bore.

The disadvantages of the known technical solution is the low strength of the formwork panel element.

The closest analogue of the claimed utility model is an element of shuttering panels (RU 141556 U1, 12/23/2013), containing a sleeve with a conical part in the form of a truncated cone and a shuttering profile of a closed box section, containing a lower shelf and an upper supporting platform with a cavity adjacent to which are vertical end stand with a hollow and a bend in its upper part and a back stand with a castle hollow formed on it having a trapezoid cross-section, the outer end of the upper surface of which is aligned with the end of at the same time, the lower shelf is made with the first hole, the upper supporting platform is made with the second hole, coaxial to the first hole, the sleeve is inserted into the said holes of the formwork profile and is fixed on the upper supporting platform and the lower shelf, and the larger base of the truncated cone of the sleeve is located in the first holes.

The disadvantage of the above technical solution is the implementation of the formwork profile from the finished pipe, in connection with which profiling is carried out by a complex technological process on expensive equipment with high energy consumption, which significantly increases the cost of production. In this case, the angles of the trapezoid are not determined, and therefore the optimal unloading of the castle cavity under current cyclic loads, including from the sleeve, is not ensured, which leads to its destruction.

The technical problem solved by the claimed utility model is to increase the reliability of the formwork panel element containing the sleeve and the welded formwork profile of a closed box section, in particular in its most weakened places - in the weld area of the formwork profile and its castle cavity.

The technical result of the claimed utility model is to increase the strength of an element of shuttering panels containing a sleeve and a welded shuttering profile of a closed box section.

The claimed technical result is ensured by the fact that in the formwork panel element comprising a sleeve with a conical part in the form of a truncated cone and a closed box section formwork profile comprising a lower shelf and an upper supporting platform with a hollow, to which there is a vertical end stand with a hollow and a bend in it the upper part and the rear pillar with the castle cavity formed on it, having a trapezoid cross-section, the outer end of the upper surface of which is aligned with the end of the supporting platform, and the lower shelf is made with the first hole, the upper supporting platform is made with the second hole, coaxial with the first hole, the sleeve is inserted into the said formwork holes and fixed on the upper supporting platform and the lower shelf, with the larger base of the truncated sleeve cone located in the first hole, in in accordance with the proposed solution, the formwork profile is made of a steel strip connected by a weld, which is located on the supporting platform, while the distance from the end of the supporting platform with the back of the rack up to the weld and the height of the said trapezoid is 20-40% of the length of the supporting platform, the lower surface of the castle cavity is located at an angle α = 100 ... 120 ° to the vertical part of the rear rack to the castle cavity, and the upper surface of the castle cavity is located at an angle β = 20 ... 40 ° to the supporting platform, and the second hole is located on the upper supporting platform at a distance of its edge from the weld, equal to 1 ... 4 the thickness of the tape formwork profile, in the direction of the end stand, and the sleeve has a larger base a truncated cone with a diameter of 32 mm, and a smaller one with a diameter of 28 mm, the sleeve is fixed to the upper supporting platform and the lower shelf of the formwork profile by welding.

Increasing the strength of the claimed element of the shuttering boards is ensured by the location of the weld of the shuttering profile and its castle recess relative to the operating working forces on the shuttering profile, including from the sleeve side. So, for optimal unloading of the weld zone and the castle cavity by transferring the perception of the working load, including from the sleeve, to other sections of the profile, it is most rational to place the weld and the smaller base of the trapezoid of the castle cavity in approximately one vertical plane of the closed profile. The distance from the end of the supporting platform from the back of the rack to the weld and the height of the aforementioned trapezoid, i.e. the depth of the castle depression should be 20-40% of the length of the supporting platform, and the edge of the hole on the upper supporting platform should be located at a distance equal to 1 ... 4 of the thickness of the tape formwork profile from the weld in the direction of the end stand, i.e. in the direction from the castle cavity. The location on the upper support site of the weld relative to the edge of the hole at a distance equal to 1 ... 4 of the thickness of the tape, eliminates the possibility of deflection of the support site in the weld zone when the sleeve creates a working load. The trapezium-shaped castle cavity is expediently made with the lower surface located at an angle α = 100 ... 120 ° to the vertical part of the back post to the castle cavity, and the upper surface - located at an angle β = 20 ... 40 ° to the supporting platform, because when the surfaces of the castle cavity are located at these angles, the labor force is decomposed into its horizontal and vertical components, which prevents compression deformation of the castle cavity section, which also increases the structural strength of the formwork profile. In addition, the placement of working structural elements (decks) on the supporting platform protects the weld from mechanical damage, and therefore the high strength of the welded profile is ensured. The implementation of the upper supporting platform with a depression, i.e. extrusion into the formwork profile increases rigidity and, consequently, structural strength. The execution of the cavity on a vertical end stand, pressed into the formwork profile, reduces stress on the vertical end stand, and therefore increases the structural strength of the formwork profile. Bending in the upper part of the end wall also provides the necessary strength profile. The sleeve is fixed in the formwork profile by welding, which results in structural rigidity and eliminates the possibility of axial movement of the sleeve relative to the formwork profile, which increases the strength of the formwork element. The shape of the sleeve in the form of a truncated cone, the larger base of which has a diameter of 32 mm, and the smaller one has a diameter of 28 mm, makes it possible to optimally distribute the pressure of the sleeve on the upper support pad to exclude the possibility of deflection of the upper support pad in the weld zone.

The utility model is illustrated in the drawing.

The element of the shuttering boards contains a sleeve in the form of a truncated cone 10 and a welded shuttering profile having a closed box-shaped rectangular section. The welded formwork profile contains a vertical end stand 1 with a cavity, reinforced in the upper part by a bend 2 with an undercutting angle, a vertical rear rack 3, in the upper part of which there is a castle cavity 4, a lower shelf 5 and an upper supporting platform 6 with a cavity. The castle cavity 4 is made in the form of a trapezoid, concave towards the end stand 1. At that, the outer end of the upper surface 7 of the castle cavity 4 is aligned with the end of the support pad 6. The weld bead 9 is located on the support pad 6 at a distance from its end from the back of the pillar 20-40% of the length of the supporting platform. Moreover, the height of the said trapezoid is also equal to 20-40% of the length of the supporting platform. The lower surface 8 of the castle cavity is located at an angle α = 100 ... 120 ° to the vertical part of the rear pillar to the castle cavity. The upper surface 7 of the castle depression is located at an angle β = 20 ... 40 ° to the supporting platform. The hollow on the vertical end post is pressed deep into the formwork profile. The lower shelf 5 is made with a first hole, the upper supporting platform 6 is made with a second hole, coaxial with the first hole. The sleeve is inserted into the aforementioned holes of the formwork profile and is fixed to the upper supporting platform and lower shelf by welding. The larger base of the truncated cone of the sleeve is located in the first hole.

The second hole is located on the upper supporting platform at a distance of its edge from the weld, equal to 1 ... 4 thickness of the tape formwork profile, in the direction of the end stand.

The formwork profile is made of a steel strip 2-3 mm thick, mainly of the grades St3, St08ps, St10-20, by profiling it, for example on a rolling mill, followed by welding, for example, induction welding or welding with high-frequency currents. In this case, the burr in the weld zone of the formwork profile should not exceed 0.2 mm.

The sleeve is made of seamless, for example, seamless, or welded steel pipe. The sleeve is a thin-walled hollow axisymmetric part. The sleeve is partially located in the inner space of the formwork profile and passes through its first and second holes. The larger diameter of the sleeve 32 mm allows the sleeve to pass into the inner space of the formwork profile through the first hole made in the lower shelf. A smaller diameter of the sleeve of 28 mm allows the sleeve to pass through the first hole and the second hole of the formwork profile. The sleeve is mounted on the upper supporting platform and on the lower shelf by welding.

Assembly element formwork profile is as follows. A formwork profile is made by welding a profiled metal strip. In the upper supporting platform in the lower flange 5, respectively, the second and first holes are made, which are located coaxially to each other. A sleeve is made in the form of a truncated cone, the large base of which is 32 mm, and the smaller is 28 mm. The sleeve is passed into the first hole, and then into the second hole. The sleeve is welded to the lower shelf and the upper supporting platform.

The formwork panel element has the following parameters ensuring its high strength. The width of the lower flange 5 is 60 ± 0.3 mm. The length of the support pad is 54 ± 2.0 mm. The height of the rear pillar 3, starting from the lower shelf 5 to the lower surface 8 of the castle cavity 4 is 56.5 mm The height of the end stand 1 together with the bend 2 is 120 ± 0.5 mm. The supporting platform 6 near the bend 2 has an extrusion into the section by 2 mm. The hollow on the vertical end post is pressed 2 ± 1 mm inward into the formwork profile. The base of the sleeve of a larger diameter is 32 mm, and its base of a smaller diameter is 28 mm, the height of the sleeve is 100-115 mm, the thickness of its wall is 2-5 mm.

Thus, the claimed design element formwork profile has high reliability during operation due to the exclusion of destruction in the areas of the castle cavity and the weld. Moreover, the claimed formwork element with high strength and reliability in operation has less weight compared to the known technical solutions by reducing the thickness of its wall, which leads to an improvement in its operational characteristics, reducing the cost of the product itself and transportation costs.

Claims (1)

An element of shuttering boards containing a sleeve with a conical part in the form of a truncated cone and a shuttering formwork profile of a closed box section, containing a lower shelf and an upper supporting platform with a cavity, adjacent to which are a vertical end stand with a hollow and a bend in its upper part and a rear stand with her castle depression having a cross section in the form of a trapezoid, the outer end of the upper surface of which is aligned with the end of the supporting platform, while the lower shelf is made with the first hole, the upper op The platform is made with a second hole coaxial with the first hole, the sleeve is inserted into the said holes of the formwork profile and fixed on the upper supporting platform and the lower shelf, the larger base of the truncated cone of the sleeve being located in the first hole, characterized in that the formwork profile is made of steel tape, connected by a weld, which is located on the supporting platform, the distance from the end of the supporting platform from the back of the rack to the weld and the height of said trapezoid is 20- 40% of the length of the supporting platform, the lower surface of the castle cavity is located at an angle α = 100 ... 120 ° to the vertical part of the rear pillar to the castle cavity, and the upper surface of the castle cavity is located at an angle β = 20 ... 40 ° to the supporting platform, and the second hole is located on the upper supporting platform, at a distance of its edge from the weld, equal to 1 ... 4 of the thickness of the tape of the formwork profile, in the direction of the end stand, the sleeve having a larger base of a truncated cone with a diameter of 32 mm and a smaller one with a diameter of 28 mm, the sleeve is fixed to erhney support platform and the bottom shelf formwork profile by welding.

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