CS268920B1 - Mechanical clamping device of form pads on a vibrating frame with horizontal vibration for compacting of building components - Google Patents

Abstract

The mechanical clamping device for formwork pads on a vibrating frame with horizontal vibration ee closes due to the weight of the formwork pad placed on the vibrating frame, through the action of the transfer of forces in a system consisting of a vertical mandrel passing through the vibrating frame and a two-arm lever loaded by it, which lifts the rod and the vertex of a triangular segment connected to it, the second vertex of which is connected to a fixed holder on the side of the vibrating frame, so that the third vertex of the triangular segment with a mounted prismatic pressure element abuts the side of the formwork pad, the opposite side of which rests on a fixed stop running along the length of the relevant edge of the vibrating frame. The simple clamping device operates without consuming electrical energy and without malfunctions.

Description

The invention relates to a mechanical clamping device for formwork pads on a vibrating frame with horizontal vibration for compacting building components.

Known clamping devices for mold bases mostly operate on the principle of hydraulic cylinders or on the principle of springs, or both. These devices do not operate automatically. Electrical energy is required to operate them. The function of clamping devices equipped with springs depends on the degree of fatigue of the springs.

These disadvantages are eliminated by the device according to the invention, which is simple, does not suffer from malfunctions, does not depend on electrical energy and on the state of fatigue of the elasticity of the springs.

The essence of the invention is a mechanical clamping device, formed from a vertical mandrel, moving in a guide sleeve, passing through a vibrating frame, provided with a flat head and a rounded heel, resting on one end of a two-arm lever. This lever is pivotally connected along the length of the body by a pin to the lower part of a double holder firmly connected to the side of the vibrating frame. The second end of the lever, modified into a fork, is pivotally connected by a pin to the lower end of the rod, the upper end of which is pivotally connected by a pin to one vertex of a double triangular segment, the second vertex of which is pivotally connected by a pin to the upper part of the double holder and a prismatic pressure element is pivotally mounted on the pin to the third vertex of the triangular segment.

Figure 1 shows a side view of a mechanical clamping device, Figure 2 shows a cross-section of a double triangular segment with a pressure element, Figure 3 shows a cross-section of a lever.

The device according to the invention operates in the following way. When the vibrating frame £ is unloaded, the flat head £ of the vertical mandrel £ protrudes above the upper surface of the vibrating frame £, because its rounded heel 16 is acted upon by the force of the facing end of the two-arm lever jj, the other fork-shaped end of which is loaded by the weight of the rod rotatably connected to it by the pin 8 and by the weight of the double triangular segment 11 rotatably connected to the rod 2 by the pin 10 and by the weight of the pressure element 15 by means of the pin 12 rotatably fitted into one of the vertices of the double triangular segment 11. As soon as the fortnopad 13 is placed on the vibrating frame £, its weight presses the flat head 2_ of the vertical mandrel £ onto the upper surface of the vibrating frame £. The rounded heel 16 of the vertical mandrel £ transfers the load to the end of the two-arm lever 5 placed underneath it, the other fork-shaped end of which is raised simultaneously with the rod which is rotatably connected to the fork of the lever 5 by a pin 8. The rod 9 transfers the movement to the double triangular segment 11, one vertex of which is rotatably connected to the upper end of the rod £ by a pin 8, and since the second vertex of the double triangular segment 11 is connected to the upper part of the fixed double holder £, the third vertex of the double triangular segment 11 with the prismatic pressure element £5 fitted is pressed against the back of the molding pad £3. The opposite back of the molding pad 13 is supported by a fixed stop (not shown) extending along the entire length of the relevant edge of the vibrating frame £.

After the vibration is terminated, the mold with the vibrated concrete mixture is lifted from the vibrating frame £ using a separate hydraulic device, thereby relieving the vertical mandrel £ and gradually unclamping the lever mechanism of the clamping device.

The resulting pressing force of the pressing element of the mechanical clamping device is approximately three times the force acting on the flat head of the mandrel, which is multiplied by the effect of the mandrel, lever, rod and triangular segment system.

One or more, preferably two, mechanical clamping devices can be mounted on the vibrating frame.

Claims (2)

SUBJECT OF THE INVENTION 1. Mechanical clamping device for formwork pads on a vibrating frame with horizontal vibration for compacting building elements, fitted with a guide sleeve through which a vertical mandrel passes, provided with a flat head, the rounded heel of which is supported by the adjacent end of a two-arm lever, characterized in that the two-arm lever /5/ is rotatably connected by a pin /6/ to the lower part of a double holder /7/ firmly connected to the side of the vibrating frame /4/ and the fork-shaped opposite end of the two-arm lever /5/ is rotatably connected by a pin /8/ to a rod /9/, which is rotatably connected by a pin /10/ to one vertex of a double triangular segment /11/, wherein the double triangular segment /11/ is rotatably connected by a pin /12/, located at its second vertex, to the upper part of the double holder /7/ and at the third vertex facing the side of the formwork pad /13/ is /14/ fitted with a pressure element /15/. 2. Mechanical clamping device for forming pads according to item 1, characterized in that the pressing element /15/ has the shape of a prism, preferably an octagon.