EA010046B1 - Modular formwork and a clamping device for connecting thereof - Google Patents

Abstract

The invention relates to construction industry, in particular, to modular formwork and a clamping device for connecting it. The modular formwork can be used for constructing walls and after hardening concrete mixture is disassembled completely and assembled anew for subsequent placement of concrete mixture. The modular formwork comprises panels, each in the form of rectangular box with a forming plate 1 and connecting profiles 2 forming side panels of the rectangular box structure, Each clamping device comprises a housing with a carrying element 6, rigid supports 7, a clamping plate 8 and an eccentric 9. The carrying element 6 of the clamping device housing has a rectangular section, the supports are made protruding in one transversal direction of the carrying element 6 along its lateral sides 10. The clamping plate 8 is hingedly connected on the carrying element 6 of the housing with clamp end projections being opposite supports 7 and positioning connecting bridge 12 on the other side of the carrying element 6. The eccentric 9 is mounted on the carrying element 6 from the side of the supports 7 capable to rotate and interact by its side working surface 13 with a side surface 14 of the connecting bridge 12 of the clamping plate 8. Radial projections 21, 22 and 23 are provided on the outer end surface of the eccentric 9. The projection 21 (fig.3) is oriented in the direction of maximum distance from the eccentric 9 rotation axis to the working surface 13, wherein projections 22 and 23 are oriented perpendicular to projection 21in opposite directions.

Description

The invention relates to the construction industry, and specifically to modular formwork and a castle for its assembly. The modular formwork can be used for the construction of walls and after the concrete mixture is set, it is completely disassembled, and for the subsequent laying of the concrete mix during the construction of a new wall it is re-assembled.

Known modular formwork containing a set of shields in the form of a rectangular box with forming the side walls of the box-like structure of the shield connecting profiles, located along the perimeter of the shield. When assembling formwork, shields are installed in such a way that the connecting profiles of adjacent shields mate like the walls of a multitude of rectangular boxes lying next to each other (EP A1 A1 0594962, IPC 5 Е04С 17/04, 1994).

The connecting profiles are made in cross-section with two concave surfaces outside the box-shaped form of the shield with the formation inside the convex surfaces, between which lies an internal longitudinal groove protruding from the outside.

Shields are connected by locks with two clamping elements, which, on the side of the free edge, cover two conjugate connecting profiles of two shields connected together. The end protrusions of the tong elements are facing each other and are located in the internal longitudinal grooves of the profiles of the connecting elements of the connected frame shields.

Tick-borne elements have a U-shaped cross-section and are hinged on the outer surfaces of the bracket, inside which is a wedge. When moving in the direction of jamming, the wedge rests with one wedge surface on the inner surface of the connecting bridge jumper of the bracket, and the second wedge surface acts on the lateral surfaces of the connecting jumpers of U-shaped clamped elements, which causes their protrusions to move towards each other.

When assembling the formwork, the lock wedge becomes clogged and the protrusions of the clamp-on elements tightly squeeze the connecting profiles of adjacent shields. When dismantling the formwork, the wedge is knocked out, the clamped elements are loosened and the clamp is removed.

The wedge is knocked out with a percussion instrument, the blows are applied in the direction across the connecting profiles. This leads to the fact that the fastening of the connecting profiles on the forming plate of the shield undergoes a periodic (in many assembly-disassembling cycles) dynamic effect, the fastening of the connecting profiles on the forming plate is loosened, as a result of which the lifetime of the shield is reduced.

It should be noted that in this well-known solution, the shields are leveled when the locks are installed, due to the fact that the connecting profiles with the side surfaces rest on the bracket, for which transverse samples are made in its sides.

Known modular formwork containing a set of shields for the construction of walls and a set of locks for the connection of shields (A1 WD 92/14013, IPC 5 Е04С 9/04, 1992). Shields in this known design are made similar to the case described above. The design of the castle is significantly different.

The lock has a bracket with an internal protrusion on one of its sides. In the second side, an axis of the eccentric is mounted, which is located outside the bracket in such a way that its side surface is located opposite the protrusion of the first side of the bracket. On the side of the connecting bridge jumper on the axis, a handle is fixed in a G-shaped form to ensure manual rotation of the eccentric.

When assembling the formwork, the lock is installed on the edges of the mating connecting elements of the two shields, the handle is rotated and the connecting elements of adjacent shields are squeezed between the protrusion of the bracket and the side surface of the eccentric located in the internal longitudinal grooves of the profiles of connecting elements of the jointed frame shields. The alignment of the shields is achieved by the fact that the connecting profiles abut the side surfaces on the inner surface of the bracket, which is made tapering to ensure self-installation of the lock.

If it is necessary to disassemble, the eccentric is turned by the handle, the lock is loosened and removed.

Manual tightening of the lock does not always provide the necessary degree of tightening of the lock. The use of a percussion instrument or an additional lever worn on an eccentric handle inevitably leads to deterioration of the connection between the handle and the axis of the eccentric and the lock's failure. Improving the reliability of the connection of the handle with the axis of the eccentric increases the cost of the lock of this known design.

The problem addressed by the present invention is the development of a modular formwork system, and specifically a self-locking lock for connecting box-shaped modular formwork panels, which would ensure reliable connection between massive shields, ensuring an increase in their service life, could be used many times over. assembly and disassembly cycles of modular formwork, would allow the use of percussion instruments during its installation and removal, while reducing the negative effects of the transfer of percussion to loads on shields.

The technical result of the invention is to create a modular formwork, the installation of which ensures the alignment of massive shields and their reliable connection. .

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This technical result is achieved due to the fact that the modular formwork includes shields, each in the form of a rectangular box with a forming plate and forming side walls of the box-like structure of the shield with connecting profiles fixed along the perimeter of the forming plate, and locks for tightening the mating connecting profiles of the adjacent shields.

The connecting profiles of the panels are made in cross section with two concave surfaces outside the box-shaped form of the shield with the formation inside the protrusions, between which lies an internal longitudinal groove.

Each lock has a body with a bearing element and rigid stops, a clip and an eccentric. Bearing element of the body has a rectangular cross-section, and the stops are made protruding in one transverse direction of the bearing element on its sides. The clamping bracket is hinged on the carrier of the housing with the release of its ends opposite the housing stops and the location of the connecting bracket jumper on the other side of the carrier. The eccentric is mounted on the carrier body from the side of the stops with the possibility of rotation and interaction of the side working surface with the side surface of the connecting bridge of the clamping bracket to ensure the movement of the free ends of the clamping bracket to the stops. Each pair of opposite ends of the bracket and the stops are made in the form of symmetrical hooks facing each other to interact with the protrusions of the mating connecting profiles. On the outer end surface of the eccentric performed protrusions.

The protrusions of the eccentric are located radially, with one in the direction of the greatest distance from the axis of rotation of the eccentric to the working surface, and the other two - perpendicular to the first in opposite directions. This embodiment allows you to provide a convenient location of the protrusions to impact them with a percussion instrument, such as a hammer, when performing assembly operations or removing the lock.

In the best embodiment of the invention, the carrier body is made with a cavity, and the eccentric with an axis passed through a hole in the carrier, and secured with a pin, passed through a transverse hole in the axis inside the cavity of the carrier.

For reasons of technological design, the carrier element of the housing can be made of a channel section, and the stops can be made of steel plates that are welded to the side surfaces of the channel.

As a rule, an eccentric with protrusions and an axis is made in one piece, which allows to ensure the reliability of such a part by eliminating connections that may be subjected to shock loads.

The hooks of the bracket and the stops are formed by recesses made in them, the size of which is larger than the size of the protrusion in the cross section of the connecting element; . This embodiment provides a reliable assembly, and also contributes to increasing the service life of the formwork, since the protrusions of this form well resist deforming loads from the locks.

The possibility of carrying out the invention is confirmed by the example of a specific embodiment of the construction illustrated with graphic materials.

FIG. 1 shows a fragment of the formwork in cross section along the mating connecting profiles of shields connected by a fixed lock.

FIG. 2 shows a lock, side view of the projections of the lugs and the free ends of the clamping bracket in plan; FIG. 3 is a top view of the eccentric; and FIG. 4 - view of the lock from the front side.

FIG. 5 shows a fragment of the shield in cross section along the connecting profile.

FIG. 6 shows a shield in cross section.

The modular formwork includes boards (Fig. 1, 5), each in the form of a rectangular box with a forming plate 1 and connecting profiles 2, which form side walls of the box-like structure of the shield, fixed along the perimeter of the forming plate 1, and locks (Fig. 1) for tightening the mating connecting profiles of 2 adjacent shields.

The connecting profiles 2 are made in cross section with two concave surfaces 3 outside the box-shaped form of the shield with the formation inside the protrusions 4, between which lies the inner longitudinal groove 5.

Each lock (Fig. 2, 3 and 4) has a housing with a bearing element 6 and rigid stops 7, a clamping bracket 8 and an eccentric 9.

The carrier 6 of the lock body has a rectangular cross-section, and the stops are made protruding in one transverse direction of the carrier 6 on its sides 10 (Fig. 3, 4). The clamping bracket 8 is hinged to the carrier element 6 of the housing with the release of its ends 11 opposite the stops 7 and the location of the connecting bridge 12 on the other side of the carrier element 6.

The eccentric 9 is installed on the bearing element 6 from the side of the stops 7 with the possibility of rotation and interaction of the side working surface 13 with the side surface 14 of the connecting bridge 12 of the clamping bracket 8.

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Each pair of opposite ends 15 of the clamping bracket 8 and the stops 7 are made in the form of symmetrical hooks 16, 17 facing each other.

Bearing element 6 is made of a section of a channel with a cavity 18 (Fig. 4), and the stops 7 are made of steel plates and are welded to the side surfaces 10 of the channel.

The eccentric 9 has an axis 19, which is passed through a hole (it can be seen in the drawings) in the bearing element 6, and is fixed by a pin 20 inside the cavity 18 of the bearing element 6.

On the outer end surface of the eccentric 9 made radial protrusions 21, 22 and 23.

The protrusion 21 (Fig. 3) is oriented in the direction of the greatest distance from the axis of rotation of the eccentric 9 to the working surface 13. The projections 22 and 23 are oriented perpendicular to the protrusion 21 in opposite directions.

With this arrangement, the protrusions 21, 22 and 23 achieve the possibility of convenient hammering the left or right protrusions to lock or wedge and remove the lock, since the projections with any position of the lock will always be positioned properly. In the embodiment shown in FIG. 3 option to the left is the protrusion 22, which is struck for wedging, and the protrusion 21 for jamming. The wedging or wedging can be carried out using a hammer or some vibro-impact tool.

The eccentric 6 with the protrusions 21, 22, 23 and the axis 19 is manufactured as a single part without performing assembly operations.

The hooks 16 of the bracket 8 and the hooks 17 of the lugs 7 are formed by recesses 24 and 25 made therein, the size of which is larger than the size of the protrusion 4 in the cross section of the connecting element 2. The protruding ends of the hooks 16 and 17 are rounded in the plan.

The convex surfaces 26 (FIG. 5) of the protrusions 4 of the connecting elements 2 located inside the shields are made with rounded apices and rounded portions 27 in cross section at the base.

Claims (10)

CLAIM 1. Modular formwork, including shields, each in the form of a rectangular box with a forming plate and connecting profiles that form side walls of the box-like structure of the shield, fixed along the perimeter of the forming plate, and locks for tightening the mating connecting profiles of adjacently installed shields, the connecting profiles of the shields are made in cross section with two concave surfaces outside the box-shaped form of the shield with the formation inside the protrusions, between which lies an internal longitudinal groove, each the lock has a body with a bearing element and rigid stops, a clamping bracket and an eccentric, a bearing element of the case has a rectangular cross-section, and the stops are made protruding in one transverse direction of the bearing element along its sides, the clamping bracket is hinged on the bearing element of the case with its ends opposite lugs of the body and the location of the connecting jumper bracket on the other side of the bearing element, the eccentric is mounted on the supporting element of the body from the side of the lugs with the possibility of rotation and interaction The actions of the side working surface with the side surface of the connecting bridge of the clamping bracket to ensure the movement of the free ends of the clamping bracket to the stops, each pair of opposite ends of the bracket and the stops are in the form of symmetrical hooks facing each other to interact with the protrusions of the mating connecting profiles, and on the outer end surface of the eccentric made radial protrusions, one of which is oriented in the direction of the greatest distance from the axis of rotation ntrika to the work surface, and the other two - in perpendicular to the first opposite directions. 2. Modular formwork according to claim 1, characterized in that the supporting body element is made with a cavity, and the eccentric with an axis passed through a hole in the bearing element, and fixed with a pin, passed through a transverse hole in the axis inside the cavity of the bearing element. 3. Modular formwork according to claim 1, characterized in that the eccentric with protrusions and the axis is made in one piece. 4. Modular formwork according to claim 1, characterized in that the hooks of the bracket and the lugs are formed by recesses made in them, the size of which is larger than the size of the protrusion in the cross section of the connecting element, the convex surfaces of the protrusions of the connecting elements located inside the shields are made with rounded tops and rounded sections the cross-section at the base, and the protruding ends of the hooks are made in a rounded plan. 5. Modular formwork according to claim 2, characterized in that the supporting body element is made of a channel section, and the stops are made of steel plates that are welded to the side surfaces of the channel bar. 6. Lock for assembling modular formwork, comprising a housing with a bearing element and rigid stops, a clamping bracket and an eccentric, a supporting housing element has a rectangular cross-section, and the stops are protruding in one transverse direction of the supporting element along its sides, the clamping bracket is hinged on the supporting housing element with the release of its ends - 3 010046 opposite the housing stops and the location of the connecting bracket jumper on the other side of the carrier, the eccentric is mounted on the carrier body on the side of the stops with the possibility of rotation and interaction of the side working surface with the side surface of the connecting bridge of the clamp bracket to ensure that the free ends of the clamp bracket move to the stops Each pair of opposite ends of each bracket and the stops are made in the form of symmetrical hooks facing each other, and The radial protrusions of the eccentric surface are made, one of which is oriented in the direction of the greatest distance from the axis of rotation of the eccentric to the working surface, and the other two are perpendicular to the first in opposite directions. 7. Lock according to claim 6, characterized in that the carrier element of the housing is made with a cavity, and the eccentric with an axis passed through an opening in the supporting element, and secured with a pin, passed through a transverse hole in the axis inside the cavity of the supporting element. 8. The lock according to claim 6, characterized in that the eccentric with the protrusions and the axis is made in one piece. 9. The lock according to claim 6, characterized in that the hooks of the bracket and the stops are formed by recesses made in them, and the protruding ends of the hooks are rounded in plan. 10. The lock according to claim 7, characterized in that the carrier element of the housing is made of a segment of the channel, and the stops are made of steel plates that are welded to the side surfaces of the channel.