RU137046U1 - FLOOR FORMWORK - Google Patents

Abstract

1. A slab formwork comprising a set of composite vertical posts mounted on jacks made of pipes and provided on the opposite side of the jacks with height-adjustable stops and horizontal hollow crossbars mounted to form a quadrangle, equipped at the ends with welded tips with paired wedges diverging at an obtuse angle for installation of one of them in the lower bowl welded to the upright, made with conical outer and inner side surfaces, and fixing the w of the wedge to the rack by the upper bowl, movable along and around the rack with the possibility of fixing the groove made in it to the rod welded to the rack in the longitudinal direction, the tips being made with a tapered truncated central part facing the horizontal crossbars, and the wedges are made with a convex outer surface for pairing with a concave inner surface of the upper and lower bowls and with a concave inner surface for pairing with the surface of the uprights, while on the tips are made ledge s welded to the edges of horizontal crossbars. 2. The formwork according to claim 1, characterized in that the tips are made with biconvex wedges diverging at an angle of 140 °. Formwork according to any one of claims 1 and 2, characterized in that the lower bowl is made with a flat end wall with an opening, at least in the part of the perimeter of which it is welded to the rack. 4. The formwork according to claim 3, characterized in that the concave inner surface of the lower bowl is made conical of two smoothly conjugated conical sections with different inclinations forming 10 ° and 20 °. 5. Opalu

Description

The utility model relates to construction and can be used in formwork structures in the construction of buildings and structures with cast concrete floors, as well as during construction and facade works. Formwork is a temporary form for the construction of concrete and reinforced concrete structures, which is built right at the site of construction work. The formwork of the floors from the elements of the wedge scaffolds is a hinged-free frame construction of vertical and horizontal elements.

Known formwork for concrete floors, containing parallel frames, consisting of vertical columns connected by diagonal and horizontal braces. The connection of nearby parallel frames is carried out by means of crosses. On the frames are installed transversely and longitudinally located beams, while on the longitudinally located beams a flat flooring is fixed. Each beam is made in the form of two channel-shaped profiles, the walls of which are connected to each other by two parallel partitions and form two symmetrically located troughs for the possibility of placement of the flat deck mounting bars in them. Frames and beams are installed with adjustable height (RU No. 2164580).

However, this design is intended only for use in confined spaces and is not applicable for use as scaffolding.

The closest technical solution, selected as a prototype, is the formwork of the floors, containing horizontal, vertical, supporting and connecting elements, a node for attaching horizontal elements to vertical, beams and formwork panel. Moreover, the vertical elements are joined together vertically by means of connecting elements on the principle of "pipe to pipe", on the vertical elements in increments of 500 mm, fixed attachment points are fixed, the inner surface of which is described by the equation of the surface of the body of revolution made of steel. Above them are made with the ability to move along the vertical element of the response attachment nodes, the inner surface of which is described by the equation of the surface of the body of revolution, from malleable cast iron. In this case, at the ends of the horizontal elements, tips are made perpendicular to the axis of the horizontal elements in the form of wedges intended for clamping between the lower attachment point mounted on the vertical element and the upper attachment point movably mounted on the vertical element (RU No. 62628, prototype).

The disadvantages of the known formwork are low longitudinal stability, limiting the size and mass of the retained floor and the small number of installation cycles (assembly / disassembly) of the formwork for the installation of floors (operational life).

The objective of the claimed utility model is to create an effective formwork of floors and expand the arsenal of formwork of floors.

The technical result, which provides a solution to the problem, is to increase the longitudinal stability, which allows to increase the size and mass of the retained floor and the number of installation cycles (assembly / disassembly) of the formwork for the installation of floors (operational life - turnover). This ensures the safety of operation and improvement of the operational properties of the formwork of the floors as a whole.

This type of lock is successfully used in conditions of dynamic loads, which are directed along one of the axes of the wedge lock. In this case, its design does not allow it to slide along the profile. The wedge lock provides the largest contact area with the uprights. The small angle of the wedge protects the structure from the negative effects of vibration and ensures high crimping quality. The design of the wedge lock is resistant to tensile and compressive forces.

A wedge lock provides manufacturability (convenient operation). To carry out the work, special tools are not required - the necessary actions can be carried out with a hammer. And thanks to the reliable connection of all the components of the castle, you can not be afraid of losing individual parts and getting concrete mortar, paint or plaster on the castle. The wedge lock allows you to quickly perform installation and dismantling of formwork. It is distinguished by a lower cost in comparison with analogues.

- Fixing the racks with crossbars automatically guarantees the vertical position of each rack, which allows to achieve a working load of up to 2700 kg per axle.

- The system easily adapts to any shape and height.

- Ability to build floors in a short time with a thickness of up to 700 mm and a height of up to 12 meters.

- Relatively short installation and dismantling times of the formwork structure.

- Most of the elements of the system at the end of concrete work are used as scaffolding.

The essence of the utility model is that the shuttering formwork contains a set of composite vertical posts installed on the jacks, made of pipes and provided on the opposite side of the jacks with height-adjustable stops, and horizontal hollow crossbars mounted with the formation of a quadrangle equipped at the ends with welded ends with paired diverging obtuse angles with wedges for installing one of them in the lower bowl welded to the vertical stand, made with conical outer and inner lateral surfaces, and fixing the second wedge to the rack with the upper bowl, movable along and around the rack with the possibility of fixing the groove made in it to the rod welded to the rack in the longitudinal direction, the tips being made with a conical truncated central part facing the horizontal crossbars, and the wedges are made with a convex outer surface for interfacing with a concave inner surface of the upper and lower bowls and with a concave inner surface for interfacing with the surface of vertical racks, pr and this on the tips made outer ledges, welded to the edges of the horizontal crossbars.

Preferably, the tips are made with biconvex wedges diverging at an angle of 140 °, the lower bowl is made with a flat end wall with an opening, at least in the part of the perimeter of which it is welded to the rack, the concave inner surface of the lower bowl is made of conic of two smoothly conjugated conical sections with a different slope forming 10 ° and 20 °.

Preferably, the upper bowl comprises a hollow body with a cylinder-shaped upper part with a spiral upper edge having an angular length of 314 °, and with a truncated cone-shaped lower part with an annular lower edge, and with mating cylindrical and conical sections of the inner surface, the outer surface is provided levers of a prismatic shape and a stepped protrusion, the upper end of which is smooth on one side and, on the other, with the formation of a step, mated to the ends of the spiral upper edge of the housing, and the inner conical surface thereof formed with a stepped side groove radially within said projection with the possibility of accommodating the said longitudinal rod.

The height of the wedges of the tip is made not less than 0.75 of the height of the lower part of the upper bowl in the form of a truncated cone, and not less than 1.5 of the height of the conical section with an inclination of 10 ° of the lower bowl. The formwork is multi-tiered, while the vertical posts are made up of paired start-up and additional posts, paired with inserts or a pipe-to-pipe connection, and the starting posts are equipped with threaded jacks with radial handles, and height-adjustable stops in the form of threaded elements are installed on the upper ends of the additional posts with persistent forks.

As a rule, the formwork is equipped with a set of tips with pair wedges for installation in the bowls of the vertical posts from the side free from the connection with horizontal crossbars, and is made with a polymer powder coating.

In the drawing of FIG. 1 shows the shuttering formwork, in FIG. 2 - wedge lock assembly, in FIG. 3 - vertical rack, in FIG. 4 is a view A of FIG. 3, in FIG. 5 - lower bowl, in FIG. 6 is a view A of FIG. 5, in FIG. 7 is a horizontal element, in FIG. 8 is a plan view of FIG. 7, in FIG. 9 - tip, front view, in FIG. 10 is a view aa of FIG. 9, in FIG. 11 is a view BB of FIG. 9, in FIG. 12 is a view BB of FIG. 9, in FIG. 13 is a view of GG of FIG. 9, in FIG. 14 - upper bowl, front view, in FIG. 15 is a side view of FIG. 14, in FIG. 16 is a plan view of FIG. 14, in FIG. 17 is a view of Α-A of FIG. 16.

The slab formwork (sometimes equivalently referred to as: bulk formwork stand) contains a set of composite (sequentially prefabricated) vertical posts 2 mounted on jacks 1 made of (steel or plastic) pipes and provided on the opposite side jacks with height-adjustable stops (univils) 3, and mounted on racks 2 with the formation of at least one quadrangle (rectangle) horizontal hollow crossbars (elements) 4 equipped at the ends welded perpendicular to the crossbar axis on ends 5 with paired wedges 6 symmetrically diverging at an obtuse angle of 140 ° and tapering to the periphery for installing one of them in the lower bowl (flange) 7 welded to the vertical stand 2, made with a conical outer side surface 8, and fixing the second wedge 6 to the stand 2 concave inner surface of the upper bowl (flange) 10, movable along and around the rack 2 with the possibility of fixing made a groove 11 in it to the rod (finger) 12 welded to the rack 2 in the longitudinal direction. Tips 5 are made with a conical truncated the central part 13, facing the horizontal crossbars 4, and the wedges 6 are made with a biconvex outer surface for pairing with the concave inner surfaces of the upper and lower bowls 10, 7 and with a concave inner surface for pairing with the surface of the vertical posts 2. In the zone of connecting the wedges 6 s the central part 13 of the tip 5 made non-circular outer ledges 14, welded to the edges of the horizontal crossbars 4 with the formation of welds 15.

The lower bowl 7 is made with a flat end wall (bottom) 16 with an opening 17, at least in the part of the perimeter of which it is welded to the rack 2.

The concave inner surface of the lower bowl 7 is made conical of two smoothly conjugated conical sections 18.19 with different inclination of the generatrix 10 ° and 20 °, respectively.

The upper bowl 10 comprises a hollow body with a cylinder-shaped upper part 20 with a non-circular spiral upper edge 21 having an angular length of 314 °, and with a truncated cone-shaped lower part 22 with an annular lower edge 23, and with associated cylindrical and conical sections 24, 25, respectively, of the inner surface. The outer surface of the bowl 10 is equipped with levers (petals) 26 of a prismatic shape and a stepped non-circular protrusion 27, the upper end of which is smooth on one side and on the other with the formation of a ledge 28 (stepped) is connected to the ends of the spiral upper edge 21 of the body, and the inner conical surface the latter is made with a stepped lateral radial groove 29 inside the specified protrusion 27 with the possibility of placing the aforementioned longitudinal rod 12.

The height of the wedges 6 of each tip 5 is 20 mm, i.e. at least 0.75 times the height of 24 mm of the lower part of the upper bowl 10 in the shape of a truncated cone, and at least 1.5 times the height of the conical section 18 with an inclination of 10 ° of the lower bowl 7. The wedges 6 are biconvex, i.e. have curvature R1 and R2 in two mutually perpendicular directions.

Formwork, as a rule, is multi-tiered, while the vertical posts 2 are made up of paired inserts or pipe-to-pipe connections of the starting and additional posts (mounting elements), and the starting posts are equipped with threaded jacks 1 with radial handles, and at the upper ends of the additional racks installed height-adjustable stops 3 in the form of threaded elements with thrust forks, which are made with the possibility of regulating the verticality of the rack with an angular deviation of not more than 0.5 ° and provide support and fixation a section of longitudinal wooden beams on a composite or telescopic stand 2.

The formwork is equipped with a set of free (loose) additional closing tips (not shown) with paired wedges diverging at an obtuse angle and tapering to the periphery for installation in bowls 7, 10 of vertical posts 2 from the side free from connection with horizontal crossbars 4.

Formwork (its details) is made with polymer powder coating. Formwork is operated as follows.

Jacks 1 are placed on the prepared site in accordance with the wiring diagram of the formwork. The assembly of the first tier begins with the installation on the jacks 1 start racks 2 and fastening them with horizontal crossbars 4.

Install horizontal elements 4 with tips 5 with wedges 6 attached to the vertical pipes of each rack 2 by clamping the tip 5 between the lower and upper bowls 7, 10.

To do this, the lower wedge 6 of the tip 5 of the horizontal element 4 is inserted into the stationary lower bowl 7 on the rack. The outer surface of the wedge 6 is located on the inner concave surface 18, 19 of the fixed bowl 7 on the rack 2. The inner surface of the wedge 2 covers the pipe of the vertical rack 2.

The upper wedge 6 is directed symmetrically to the lower wedge 6 towards the upper movable bowl 10 and is introduced into the movable bowl 10 on the rack 2. After lowering the upper bowl 10, the outer surface of the wedge 6 is located on the inner concave surface 25 of the movable bowl 10 on the rack 2. The inner surface of the wedge 6 covers the pipe of the vertical strut 2. Then, the upper bowl 10 by the impact (impact) on the levers 26 rotates along the spiral edge 21 in the direction of stepwise pairing (ledge 28) with the protrusion 27, until the rod 12 is aligned with the groove 29 of the protrusion 27, h m ensures fastening of the horizontal elements 4 and 2 to the stand, thereby fixing the structure of formwork in the assembled state.

To dismantle the structure, the upper bowl 10 by the impact (impact) on the levers 26 rotates along the spiral edge 21 in the direction of smooth mating with the protrusion 27, until the rod 12 leaves the groove 29 of the protrusion 27, which ensures the horizontal elements 4 are separated from the rack 2 and, thereby , fixing the formwork design and the possibility of disassembling it with rearranging racks in another structure ..

The above geometry of the execution of the rack 2, tip 6, bolt 4, upper and lower bowls 10.7 in the best way ensures the manufacturability of the manufacture of the rack. In this case, the lower bowls 7 and the rods 12 are welded to the rack 2 by highly productive automatic welding. In this case, the tips 5 are made by stamping, and the element as a whole is highly productive by automatic welding, because the tip 5 is inserted along the centering cone 13 into the pipe of the crossbar 4 without distortion until it stops.

Angular and linear dimensions are performed with the accuracy adopted in building structures.

The manufacturing technology of the lower bowl (lower grip) from sheet steel by stamping allows to improve: the quality of welding of the lower grip to the vertical elements, the accuracy of the geometric parameters of the parts, to eliminate the concealment of defects (such as the formation of internal shells, adhesions when casting), and also generally to increase the reliability fasteners for vertical and horizontal structural elements. The manufacturing technology of the upper bowl (moving upper grip) from steel by forging allows you to increase: the accuracy of the geometric parameters of the parts, eliminate the concealment of defects (such as the formation of internal shells, adhesions during casting), and also generally improve the reliability of the mount of vertical and horizontal structural elements .

The design provides a quick and complete selection of gaps in the joints of the wedge lock of the formwork and the maximum contact area of the wedges 6 with the concave and convex surfaces of the mating parts - bowls 7, 10. As a result, the contact loads on the bearing surfaces of the bowls 7, 10 are reduced and their durability is increased. At the same time, this helps reduce labor costs and simplifies the technology of assembling / disassembling the wedge lock of the formwork, thereby increasing to 200 or more the number of permissible cycles of assembling / disassembling the formwork before replacing horizontal elements. Reliable corrosion protection of formwork parts and its durability is ensured by polymer powder coating of their surfaces

Thus, the use of a technical solution increases the manufacturability of production and improves the performance of floor formwork, such as manufacturability, reliability and durability of the structure.

Claims (9)

1. A slab formwork comprising a set of composite vertical posts mounted on jacks made of pipes and provided on the opposite side of the jacks with height-adjustable stops and horizontal hollow crossbars mounted to form a quadrangle, equipped at the ends with welded tips with paired wedges diverging at an obtuse angle for installation of one of them in the lower bowl welded to the upright, made with conical outer and inner side surfaces, and fixing the w of the wedge to the rack by the upper bowl, movable along and around the rack with the possibility of fixing the groove made in it to the rod welded to the rack in the longitudinal direction, the tips being made with a tapered truncated central part facing the horizontal crossbars, and the wedges are made with a convex outer surface for pairing with a concave inner surface of the upper and lower bowls and with a concave inner surface for pairing with the surface of the uprights, while on the tips are made ledge s welded to the edges of horizontal crossbars. 2. The formwork according to claim 1, characterized in that the tips are made with biconvex wedges diverging at an angle of 140 °. 3. The formwork according to any one of claims 1 and 2, characterized in that the lower bowl is made with a flat end wall with an opening, at least in the part of the perimeter of which it is welded to the stand. 4. The formwork according to claim 3, characterized in that the concave inner surface of the lower bowl is made conical of two smoothly conjugated conical sections with a different slope forming 10 ° and 20 °. 5. The formwork according to claim 4, characterized in that the upper bowl contains a hollow body with a cylinder-shaped upper part with a spiral upper edge having an angular length of 314 °, and with a truncated cone-shaped lower part with an annular lower edge, and with mating cylindrical and conical sections of the inner surface, the outer surface is equipped with prismatic levers and a stepped protrusion, the upper end of which is smooth on the one hand and on the other with the formation of a step is connected with the ends of the spiral upper edge of the body, and Cored oil conical surface thereof formed with a stepped side groove radially within said projection with the possibility of accommodating the said longitudinal rod. 6. Formwork according to any one of paragraphs 4 and 5, characterized in that the height of the tip wedges is not less than 0.75 of the height of the lower part of the upper bowl in the form of a truncated cone and not less than 1.5 of the height of the conical section with an inclination of 10 ° of the lower bowl . 7. The formwork according to any one of claims 1 and 2, characterized in that it is multi-tiered, while the vertical posts are made up of starting and additional posts connected by inserts or pipe-to-pipe connection, and the starting posts are equipped with threaded jacks with radial handles and at the upper ends of the additional posts installed height-adjustable stops in the form of threaded elements with persistent forks. 8. Formwork according to any one of claims 1 and 2, characterized in that it is equipped with a set of tips with paired wedges for installation in the bowls of the vertical posts from the side free from connection with horizontal crossbars. 9. The formwork according to any one of claims 1 and 2, characterized in that it is made with a polymer powder coating.

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