RU194571U1 - SOIL ANCHOR - Google Patents

Abstract

The proposed utility model relates to the field of construction, namely to the implementation of soil anchors. The technical problem solved by the utility model is the development of a simple and quick-build soil anchor that does not require the development of a special mechanism for its construction, but uses a basic machine for construction - a single-bucket excavator. The proposed soil anchor is made of a T-shaped element with an inverted T-shaped profile in cross section, in which the shelf is a T-shaped element and the barrel is its stand, and the shelf is bent in a plane of rotation of the lever around a circle with a radius equal to the distance from the axis of rotation lever to the middle of the shelf thickness. The handle of a single-bucket hydraulic excavator can serve as a lever for the anchor immersion mechanism. The technical result from the implementation of the utility model is achieved due to the fact that it will allow the creation of simple and quick-set, as well as low-energy and non-loosening soil when installing soil anchors that do not require the development of a special mechanism for their construction, but are installed mechanically using one of the most common construction machines - single bucket excavators.

Description

The utility model relates to the field of construction, namely to the implementation of soil anchors.

As a prototype, the anchor described in the invention, “Method for erecting a soil anchor and a device for its implementation” (see AS USSR No. 1249113, CL E02D 5/80, 1986), consisting of a barrel with a fifth of two plates, was selected and a plate curved in an arc with a slot under the trunk, immersed in the ground by a curved bar along an appropriate path through an immersion mechanism having a lever.

The disadvantages of the prototype is the need to develop a special mechanism for the construction of the anchor, as well as the complexity of the construction process and the required high accuracy of the trajectories of the trunk and plate in the ground for a plate with a slot in the gap between two plates on the heel of the barrel; the required significant length of time for the erection of the anchor and the energy consumption for pressing the curved rod into the soil and removing it from the soil. In addition, the prototype provides loosening of the soil by pressing a curved rod into it, and then removing it from the soil, leaving it empty. As a result, a part of the plate area, captured by the bar, will be surrounded in the ground by a void and taken out of operation as an anchor surface. The connection of the barrel with the plate is non-rigid.

The technical problem solved by the utility model is the development of a simple, quick-build and non-loosening soil when installing a soil anchor, which does not require the development of a special mechanism for its construction, but uses a single-bucket excavator to build the basic machine.

The task is achieved in that the soil anchor containing the trunk and the plate, which is curved along the arc of the trajectory of its immersion in the ground by a mechanism including a lever, is made by a single T-shaped element with an inverted T-shaped profile in cross section, in which the T- shelf serves as a plate shaped element, and the barrel is its rack, and the shelf is bent in the plane of rotation of the lever in a circle whose radius is equal to the distance from the axis of rotation of the lever to the middle of the thickness of the shelf.

The shelf of the tee-shaped element in its cross-section is not straight, but concave downward.

The edges of the part of the anchor immersed in the ground and its shelf in plan are made with a sharpness in the direction of immersion in the ground.

To solve this problem, an anchor is proposed, which is a T-type construction made in advance (before its erection) with an inverted T-shaped profile in cross section. In this design, the shelf is the T-shaped element, and the barrel is the wall of the T-shaped element. Such an anchor is erected with a lever, which is the handle of a single-bucket hydraulic excavator, from which removable working equipment is dismantled and the proposed anchor is installed on the handle. To do this, at least two holes are provided in the wall of the T-shaped element for attaching it to the handle of the excavator, into which pins-type fastenings are installed. In order for the T-shaped element to better cut into the ground by the rotational movement of the handle, and also not to loosen the soil when immersed, the shelf of the element is curved in the plane of rotation of the handle with a radius equal to the distance from the axis of rotation of the handle to the middle of the thickness of the shelf. In addition, the edges of the part of the anchor immersed in the ground and its shelf are planed to be sharpened from the side directed into the ground. For the best anchor properties of the proposed T-shaped element, its shelf in the cross section (in the plane perpendicular to the plane of rotation of the lever or handle) is not curved, but curved downward.

To clarify the proposed utility model proposed drawing. The figure 1 schematically shows the boom equipment of the excavator in the working position, sections aa and bb. The excavator boom is represented by 1, the handle - 2, the soil anchor - 3, the fastening elements of the anchor to the handle - 4. Figure 2 shows a cross section of the soil anchor, in which the T-section element shelf in cross section relative to the direction of immersion in the ground is not straight while concave down.

The device operates as follows. When using a single-bucket hydraulic excavator, mainly equipped with working equipment - a backhoe, its removable working equipment is previously dismantled, namely the bucket and the bucket drive rod. At the same time, the bucket hydraulic cylinder can be left, but pulled to the handle by a clamp so that the hydraulic cylinder does not dangle, being connected only with a hinge to the handle. Before construction, the proposed soil anchor is installed on the handle of the excavator. To do this, at least two holes with an interaxal distance are provided in the wall of the T-shaped element of the anchor for the purpose of attaching it to the handle of the excavator, like the holes in the handle of the excavator, which are used for swivel joints with the bucket and bucket traction. Fasteners such as pins are installed in these holes. Then, the excavator rotates the handle by immersing the proposed anchor in a place for it in the ground.

Thus, the proposed utility model allows you to create simple and quick-set, as well as low-energy and non-loosening soil when installing soil anchors that do not require the development of a special mechanism for their construction, but are installed mechanically using one of the most common construction machines - bucket excavators.

Claims (3)

1. A ground anchor containing a trunk and a slab, which is curved along the arc of the trajectory of its immersion in the ground by a mechanism including a lever, characterized in that the anchor is made by a single T-shaped element with an inverted T-shaped profile in cross section, in which the T shelf serves as a slab -shaped element, and the barrel - its rack, and the shelf is curved in the plane of rotation of the lever in a circle whose radius is equal to the distance from the axis of rotation of the lever to the middle of the thickness of the shelf. 2. A ground anchor according to claim 1, characterized in that the shelf of the T-shaped element in its cross section is not straight, but concave downward. 3. The soil anchor according to claim 1, characterized in that the edges of the part of the anchor immersed in the soil and its shelf in plan are sharpened in the direction of immersion in the soil.

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