RU2109880C1 - Ground anchoring support and method of its installation - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this can be used for building purposes, in agriculture, domestic affairs. Anchoring support has body, and securely fastened to its lower part by their ends are flexible rods directed along body towards its upper part. Free ends of rods can be connected with washer which embraces body. In their upper part, rods can be connected with washer which embraces body and their free ends can be directed along body towards its upper part. According to method of installing, anchoring support is sunken into ground, then it is lifted up to achieve design effort. Prior to sinking, rods are brought away from support body to angle of 15-45 deg. In another version of installation, device after being sunken is brought to working position by screwing on auxiliary supporting sleeve in upper part of body and auxiliary pipe of box configuration put on body. After that, auxiliary sleeve and pipe are taken out. Also possible is at bringing support to working position to drive in auxiliary pipe with its subsequent removing. EFFECT: high efficiency. 6 cl, 8 dwg

Description

 The invention is intended for use in construction, agriculture, in everyday life.

 Traditionally, the fastening of the rod, pipe, pile, column of another support in the ground is done by immersing the end to a depth that ensures the stability of the support. With any orientation of the load (top, bottom, side), the required depth of depth is the smaller, the larger the diameter of the support and the density of the soil.

 For additional reinforcement in the ground, ceteris paribus (soil density, diameter and depth of support), usually in some way increase the area of the base of the support. For example, before installation, a cross member is attached to the end. Then the ⊥-shaped part of the support is buried, since in this case clogging is excluded and, accordingly, the operation to additionally strengthen the support is much more complicated.

 Known soil anchor, comprising a housing, at least one blade articulated on it, a cable rod attached at one end to the blade, a device for fixing the rod when the blade is in working position, and a stop located under the hinge to provide clearance between the blade and the housing when mounting the blade characterized in that the anchor is equipped with a stop for the blades fixed on the body under the hinge in the working position, a stop located above the hinge is fixed on the blades, and the fixture for fixing traction is made in the form of two rods attached to the upper part of the housing [1]. When installing the anchor after it is buried in the ground, the fixation of the rod is removed and when lifting up, the blades turn to the stop.

 The known device has a complex structure. In addition, it is not intended to be used as a support when the load is applied from top to bottom.

 Also known is a soil anchor, including a trunk (body) with articulated blades made in the form of flexible lashes, consisting of individual elements with beveled ends, interconnected by hinges and leaf springs [4].

 After the anchor is immersed to a predetermined depth, a withstanding force is applied to it, the springs unfold the adjacent elements of the blades to the stop of the protrusions of one of them in the cutouts of the others. However, this anchor has a complex structure, due to the varying flexibility of the individual parts of the blades, the reliability of operation with heterogeneous soils is reduced.

 The closest known is an anchor, including an inventory rod with a pair of wedge ribs located in the same plane, rotary blades with longitudinal ribs, a common hinge attached to the lower end of the rod, each blade made of sections connected by additional hinges, the axes of which are parallel axis of the common hinge and are displaced relative to the center of gravity [5].

 The closest way to install the anchor is the method known from the same source, in which the device with closed blades is immersed to a predetermined depth, then the blades are forcibly deployed with the help of the rod and the force is partially opened using the rod, and then, when applied to the rod, the forces are fully opened.

 The disadvantages of the known devices and method are the complexity of the design, material consumption, unreliable work, especially with heterogeneous soils, great efforts for immersion in the soil due to the significant area of the blades and their uneven flexibility.

 The objective of the invention is to simplify the design of the device, improving the installation method, expanding the scope of use.

 To solve the problem in a soil support-anchor, consisting of a housing, flexible rods are firmly attached to the lower part of the housing with the ends directed along the housing to its upper part. In the soil anchor support, the free ends of the rods can be connected to a washer covering the housing. In the soil support-anchor in the upper part of the rod, they can be connected with a washer covering the body, and their free ends can be directed along the body to its upper part.

The method of installing the soil support-anchor is that after the support is immersed in the soil it is lifted up to achieve the design effort, and before the bars are immersed, they are pushed apart from the body by an angle of 15 to 45 ^o , which is formed between the body and the rods.

Another way to install the soil support is to first burrow the device into the soil to the design depth, and then transfer it to the working position by screwing the auxiliary support sleeve on the upper part of the body and the auxiliary pipe (box), dressed on the body, and before immersing the support in the soil, the rods are moved apart from the body by an angle of 15 to 45 ^o , which is formed between the body and the rods in the place of their fastening, and after the support is put into working position, the auxiliary sleeve and auxiliary pipe are removed.

The third way of installing the soil support-anchor is that after the support is immersed in the soil, it is put into working position with the help of an auxiliary pipe (box), dressed on the body, and before the support is immersed in the ground, the rods are moved apart from the body by an angle of 15 to 45 ^o , formed between the body and the rods in the place of their fastening, to transfer the support to the working position, the auxiliary pipe is clogged and then removed.

 In FIG. 1 shows a soil support anchor before installation; in FIG. 2 - the same with a washer connected to the free ends of the rods; in FIG. 3 - the same when the washer is connected to the upper parts of the rods, and their free ends are directed upwards; in FIG. 4 - working position in the ground of the device shown in FIG. 3, after indentation of the auxiliary pipe; in FIG. 5 is a section A-A of FIG. one; in FIG. 6 is a section B-B of FIG. 2; in FIG. 7 is a section C-C of FIG. 3; in FIG. 8 is a section D-D of FIG. 4.

 The ground anchor support comprises a housing 1, to the lower part of which flexible rods 2 are attached with their lower ends, directed along the housing to its upper part.

 The free ends of the rods 2 can be connected to the washer 3 covering the housing 1. In the upper part of the rods 2 can be connected to the washer 3 covering the housing 1, and the free ends of the rods are directed along the housing to its upper part.

Ways to install devices. Before installing the rods are moved apart from the housing by an angle of 15 to 45 ^° , which is formed between the housing and the rods in the place of their attachment. The magnitude of the angle depends on the number and diameter of the rods of their flexibility, soil density. The lower the density, the larger the angle. Preparation for installation for the second and third devices consists, moreover, in that an auxiliary pipe (box) 4 is put on the housing and, if necessary, an auxiliary support sleeve 5 is screwed.

 Immersion of the support in the ground is usually done: using a sledgehammer, hammer, in another way. Moreover, depending on the density of the soil, the rods deviate more or less from the initial position towards the body, remaining able to return to their original position. If the supports are pulled out, they will diverge, increasing the resistance to the current load.

 After immersion of the support in the ground, the method of transferring it to the working position is determined by the purpose of the support. The first device from the claimed group is mainly used as an anchor. The transfer to the working position consists in lifting it up. At the same time, the rods diverge, increasing the supporting surface, improving the contact of the working body (support) with the medium (soil).

 After immersing in the soil to the design depth and depending on the purpose of the soil support-anchor, an auxiliary pipe (box), dressed on the device’s body, or hammered with a sledgehammer, hammer, in another way (in this case, the auxiliary support sleeve is not screwed onto the body), or pressed into the ground using an auxiliary support in the form of a coupling located on the housing, in another way. It should be borne in mind that clogging the auxiliary pipe (box) is easier and faster, but at the same time there is some deepening of the device until additional support is formed on the ground due to the deformation of the rods. With indentation, further deepening of the device does not occur, but it is a more laborious and lengthy process compared to clogging of the auxiliary pipe (box). Therefore, it is killed mainly when using the device as a support during the actions of the payload from top to bottom, and the auxiliary pipe (box) is pressed in mainly during the actions of the load from the bottom up. The reverse is not excluded.

 As the auxiliary pipe (box) deepens, its pressure on the auxiliary washer and, accordingly, on the rods increases, they diverge, penetrating deeper into the soil and compacting it. This improves the contact of the working body (support) with the environment (soil). Moreover, the surface area of the contact increases several times, respectively, the possible maximum payload on the support increases many times.

 Figs. 4, 8 show the working position of the third device in the ground after pressing in the auxiliary pipe 4 using the auxiliary support sleeve 5. The role of the washer in this case is played by the middle part of each rod 2 wrapped by a ring 3 around the housing 1, the free ends of the rods are directed along the housing in side of its top.

 After installing the device in the working position, the auxiliary pipe (box) and auxiliary support sleeve are removed. They played a role and are subsequently used to install other similar devices. But it is possible, if desired, the auxiliary pipe (box) and the coupling to leave on the support housing.

 The proposed device can be made of improvised material directly at the installation site. During experimental testing of the design and installation method, they were used as: the device case — a gas pipe with an external diameter of 23 mm, an auxiliary pipe — a water pipe with an external diameter of 35 mm, rods — a wire with a diameter of 4 mm. The number of rods, their length depends on the diameter and nature of the material, the density of the soil. The free ends of the rods protruding beyond the washer play a large role when the device is used as an anchor. They significantly increase the permissible payload, diverging when pulling the device out of the ground. The maximum payload increases in general by 20 times.

 Using the proposed devices and methods for their installation will simplify the design of traditional supports, making them easier by reducing the diameter and depth of immersion in the ground, reduce labor costs and installation time, which is especially important when operating various transportable objects, as well as during emergency situations.

Claims (6)

 1. Ground support-anchor, consisting of a housing, characterized in that flexible rods are firmly attached to the lower part of the housing with ends directed along the housing to its upper part.  2. Anchor support according to claim 1, characterized in that the free ends of the rods are connected to a washer covering the housing.  3. The anchor support according to claim 1, characterized in that in the upper part of the rod are connected to a washer covering the housing, and their free ends are directed along the housing to its upper part. 4. The method of installation of the soil support-anchor, which consists in the fact that after the support is immersed in the ground it is lifted up to achieve the design effort, characterized in that the rods are pushed apart from the body by an angle of 15 - 45 ^o , formed between the body and the rods . 5. The method of installing the soil support-anchor, which consists in the fact that the device is first buried in the ground to the design depth, and then transferred to the working position by screwing the auxiliary support sleeve on the upper part of the body and the auxiliary pipe (box) worn on the body, characterized in that before immersion of the support into the ground, the rods are pushed apart from the body by an angle of 15 - 45 ^o , formed between the body and the rods in the place of their fastening, and after the support is put into working position, the auxiliary sleeve and pipe are removed. 6. The method of installing the soil support-anchor, which consists in the fact that after the support is immersed in the ground, it is put into working position with the help of an auxiliary pipe (box) mounted on the housing, characterized in that before the support is immersed in the soil, the rods are moved apart from the housing by an angle of 15 - 45 ^o , formed between the body and the rods in the place of their attachment, to transfer the support to the working position, the auxiliary pipe is driven and then removed.

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