CS260878B1 - Scissor load carrier - Google Patents

Abstract

The solution concerns a carrier of concrete rings for wells. It solves the problem of improving working conditions and increasing the safety of the well worker while simultaneously eliminating damage to the ring. The problem is solved by the fact that both suspension arms of the carrier are made of a belt shaped into a loop, in the lower part of which there is a reinforcement. Both ends of the belt, provided with a hole for the suspension ring, are parallel in the upper quarter of the length of the loop, then each of them is bent by an acute angle β. Under the bent part, a reinforcement with a handle is placed in the loop. Under it is a side push holder of the carrier, formed by a belt, between the lower surface of which and the edge of the belt of the loop there is an acute angle a. The carrier can also be used for transporting other loads by cranes.

Description

BACKGROUND OF THE INVENTION The present invention relates to a scissor-shaped load carrier comprising two hinge arms and a hanger.

Until now, the loads, especially the parts of the concrete rings for the wells, have been transferred by means of straps and by means of a steel pin inserted into the hole in the ring. Both of these methods are disadvantageous and can cause injury to the well, since the straps are torn in the wet environment and the parts of the concrete rings have invisible cracks or other material defects which lead to failure of the ring. and

These drawbacks are overcome by the load carrier according to the invention, which is characterized in that the two hinge arms are formed from a loop shaped into a loop with a reinforcement at the bottom. The waist ends provided with the hinge ring opening are parallel in the upper quarter of the loop length. Then each of them is avoided by a sharp angle β. One of the suspension arms has a bent portion higher than the other. Under the bent part there is a reinforcement with a handle in the loop. Underneath is a lateral support carrier formed by a waist with an acute angle α between the lower surface and the waist waist edge.

The load carrier according to the invention is solid and hardly worn. Working with it is safe and fast. Since the pressure exerted by the weight of the load acts equally on both arms and pushes them from both sides to the center of gravity axis, the arms cannot be unexpectedly opened and the load is securely fastened.

An example of a practical embodiment of a load carrier according to the invention is shown in the drawings. Figure 1 is a front view of the carrier and Figure 2 is a side view of the carrier, and Figures 3 to 6 illustrate the handling of the carrier.

1 shows a scissor-shaped load carrier. It consists of the right and left hinge arms 2, 1 and the hinge ring 4. Both ends of the hinge arms 2, 1, made of a loop shaped into a loop, are provided with a hinge ring hole 7 below the bent waist section. is a reinforcement 5 with a handle. Below it is the side push-on carrier 3 of the carrier. It is formed from a U-shaped waist with an angle of α = 75 ° between the lower surface and the waist edge of the loop. At the bottom of the waist loop is reinforcement 6.

In Fig. 2, the hinge arm 1 is made from a loop shaped waist. Both ends of the waist are provided with a hole 7 for the suspension ring 4. In the upper quarter of the loop length, the ends of the waist are parallel, then each is bent by an angle β = 25 °. One of the suspension arms Z, 1 has a bent portion higher than the other. Underneath the bent portion is a stiffener 5 with a handle. Below it is the side push-on carrier 3 of the carrier. At the bottom of the waist loop is reinforcement 6.

Figure 3 shows the mounting of the carrier on the ring 8. Within the reach of the lifting device, i.e. near the well. The widest flat washer 9 is placed on the terrain, the part of the circle 8 is placed on the washer so that the outer radius of the part of the circle lies on this washer and both edges of the circle 8 are higher from the terrain. This creates a free space between the terrain and the edge of the circle.

Grasp the support with both hands on the holders 5 and open both sides of support 1 and 2 horizontally to the sides up to the edges of the part 8. In this position, lower the entire support lower by the force of the circle so that the edges of the circle 8 point into the loop 2. Clamp the two arms together again in the T and T 'directions using the holders 5 until they reach the stop of the inner side of the two holders 3. This already clamped state is shown in dashed lines in Figure 3. In this position, the ring 8 is encircled by a loop of the arms 1 and 2 on each side of the ring.

Figure 4 shows the terrain and tethered ring 8 on the support 9 as viewed in the direction P of Figure 3. Here, the horizontal position of the carrier with the ring is indicated by dashed lines. From this horizontal position by means of the holders 5, the carrier 1 with the ring 8 is turned by 90 ° in the U direction to a vertical position already off the ground 9. In this vertical position, the tethered carrier is ready for lifting and lowering into the well.

Figure 5 shows the same position as Figure 4, viewed in the direction of V, except that the carrier is no longer standing on the ground but hangs on the rope by the ring 4 when raised above the well in the F direction. . The fastening of the ring to this position is carried out smoothly by the carrier and hence the whole process is very fast and the thus fastened part of the ring is absolutely safe, because when suspended, the weight of the ring 8 pushes the arms 1 and 2 together. This clamping is retained by the side holders 3 from both sides of the ring, under which the clamping force of the arms 1 and 2 is exerted. These centripetal lateral pressures cause the carrier to not open in the suspended position and at the same time act on the cohesion of the entire ring, thereby guaranteeing the safety of the well even if the rings have cracks or other invisible defects.

Figure 6 shows the release of the coil from the hinge in the well. On the same washer 9, we set up the bead already during lowering. Use the holders 5 to push the carrier downwards in the direction F ‘. The carrier moves down according to the dashed designation. Alternately, open one arm toward R with one hand and swivel out of the circle and then arm 2 towards R ‘, keeping the stability of the part 8 on the washer 9 with the other hand. After these operations, the lift operator lifts the carrier to

260678 the displacement of the next part of the ring and the already released part is available to the well for alignment. This cycle is repeated as necessary.

The invention can also be used to transport other crane loads.

Claims (1)

Subject A carrier for transporting scissors in the form of two hinge arms and a suspension ring, characterized in that the two hinge arms (2, 1) are formed from a loop shaped into a loop with a reinforcement (6) at the bottom thereof, provided with the hinge ring hole (7) are parallel in the upper quarter of the length of the inventive loop, then each is bent by an acute angle β, one of the hinge arms (2, 11j having a bent portion higher than the other, below the bent part of the waist loop, there is a stiffener (5) with a handle below which is a lateral support carrier (3) formed by a waist between whose lower surface and the waist waist edge is an acute angle α.