SU763526A1 - Soil injection anchor - Google Patents

Description

The invention relates to the field of construction and for the implementation of soil injection anchors designed to transmit tensile forces from fixed structures to deep layers of the soil.

A well-known injection injection anchor is provided, including thrust placed in the well, the end of the well facing the bottom of the well provided with an anchor plate, and the other with a tensioner, injection tube and foam disks, which play the role of a plugging device [1].

When installing this anchor in a well, removing mud, ground water or gas from it is more difficult, and the remaining drilling fluid, ground water ¹⁵ or gas remaining in the well reduces the bearing capacity of the anchor.

Closest to the described invention is a ground injection anchor, including a thrust placed in a ₂₀ well, facing the bottom of the well, the end of which is equipped with an anchor plate, and the other with a tensioning device, the injection tube covering (54)

traction and injection tube an elastic socket facing the bottom of the well and attached with a narrowed part to the traction, and a branch pipe, the free end of which is equipped with a shutoff valve [2].

Drilling mud, groundwater, and gas filling the well are removed through an outlet pipe. However, the outlet pipe may become clogged, resulting in a complete replacement of the drilling fluid, ground water or gas, which reduces the bearing capacity of the anchor and its corrosion resistance.

The purpose of the invention is to increase the bearing capacity of the anchor and its corrosion resistance.

The goal is achieved due to the fact that in the soil injection anchor, including a thrust placed in the well, the end of the well facing the bottom of the well is equipped with an anchor plate, and the other with a tensioning device, the injection pipe and an elastic socket facing the thrust and injection tube facing the bottom of the well and attached to the draft by a narrowed part, the draft is provided with a protective sheath, the injection tube in the zone of its coverage by an elastic bell is made with holes blocked by non-return valves, and the expanded part is a raster ba attached to the anchor rod and its cross section has a local weakening or expanded portion of the socket is attached to the rod by a tearable ring while facing the end of the injection wells zoboyu tube is provided with a shutoff and reflux valve.

In FIG. 1 shows the described anchor, an embodiment of the extended part of the socket with local weakening; in FIG. 2 - the same, an embodiment of the extended part of the socket attached to the rod by means of a torn ring; in FIG. 3 - node A in FIG. 2.

The described soil anchor includes rod 1 with an injection attached to it. tube 2. On the rod 1 is placed an elastic bell 3, covering the rod and the injection tube. An anchor plate 4 is installed at one end of the rod 1, and a tension device 5 is installed at the other end. The injection tube in its coverage zone is made with holes 6 blocked by non-return valves 7. The tapered end of the socket 3 is fixedly mounted on the nozzle 8 of the rod 1, and the extended end the socket is temporarily fixed to the thrust by performing it with local weakening 9 or by means of a rupture ring 10.

The lower end of the injection tube may be provided with a shut-off ball valve 11 and a non-return valve 12. The rods 1 are placed in the protective 'shell 13.

After drilling a well, for example under a mud, the anchor is immersed in the well, after which a hardening solution is injected through the lower end of the injection tube 2, which is equipped with a seat for the ball valve 11 and a check valve 12 to replace the drilling fluid, gas ground water with a ring exit the gap between the walls of the well and a closed elastic socket 3. After that, lower the ball into the injection tube 2 to lock the ball valve 1I after the well is completely filled with a hardening solution and will be pumped harden the solution through the injection tube 2, holes 6 and check valves 12 into the cavity of the elastic socket 3 with its subsequent opening by releasing the expanded part of the socket from the tearing ring 10 or separating it at a fixed gap in the area of local weakening 9. In the working area of the anchor create the pressure of the hardening solution is up to 20-30 atm, and after the hardening solution has set its design strength, the anchor is tensioned.

An anchor can also be installed in a well already filled with a hardening solution.

The use of the described soil injection anchor makes it possible to completely replace the drilling fluid, ground water or gas in the well with a hardening solution, which makes it possible to increase the bearing capacity of the anchor and its corrosion resistance.

Claims (2)

the elastic socket is made with openings blocked by non-return valves, and the extended part of the socket is attached to the anchor rod and its cross section has local weakening or the expanded part of the socket is attached to the rod by a torn ring, the end of the injection tube facing the well is shut-off and check valves. FIG. 1 depicts the described anchor, an embodiment of the expanded part of the socket with local attenuation; in fig. 2 - the same, the embodiment of the expanded part of the socket attached to the rod by a torn ring; in fig. 3 shows the node A in FIG. 2. The soil anchor described includes a tube 1 with an injection tube attached to it 2. On a tube 1 there is an elastic socket 3, which covers the string and an injection tube. At one end of the rod 1, an anchor plate 4 is installed, and at the other end there is a tension device 5. The injection tube in the coverage area of the socket is made with holes 6, blocked with check valves 7. The tapered end of the socket 3 is fixedly mounted on the glass 8 tons 1 and the extended end of the socket is temporarily secured to the rod by performing it with local weakening 9 or by means of a rupture ring 10. The lower end of the injection tube can be equipped with a shut-off ball valve 11 and a non-return valve 12. After drilling a well, for example, below the mud solution, the anchor is immersed in the well, after which the hardening solution is injected through the lower end of the injection tube 2 fitted with a seat for a ball valve 11 and a check valve 12 to replace the mud, ground water gas with their exit through the annular gap between the walls of the well and the closed elastic socket 3. After that, the balloon is lowered into the injection tube 2 to lock the ball valve 11 after the well is completely filled with hardening the solution and inject the hardening solution through the injection tube 2, holes 6 and check valves 12 into the cavity of the elastic socket 3 with its subsequent opening by releasing the expanded part of the socket from under the ruptured ring 10 or its splitting at a fixed point of rupture in the local weakening zone 9. In the early zone The anchors create a pressure of the turning solution up to 20-30 atm, and after the set is hardened with a design strength solution, the anchor is tensioned. The anchor can also be installed in a well that is already filled with hardening solution. The use of the described soil injection anchor allows to ensure complete replacement of drilling mud, ground water or gas in the well with hardening solution, which allows to increase the bearing capacity of the anchor and its corrosion resistance, Claim 1: A soil injection anchor that includes to the bottom of the well, the end of which is provided with an anchor plate, and the other with a tensioning device, an injection tube and a pulling tube and a injection tube covering an elastic socket facing the bottom of the well and attached to the constricted part of the tractor, characterized in that, in order to increase the bearing capacity of the anchor and its corrosion resistance. The traction sheath is provided with a protective shell, the injection tube in the zone of its coverage is bell-shaped with openings blocked by non-return valves, and the expanded part of the bell is attached to the anchor rod and its cross section has local weaknesses or the expanded part of the socket is attached to the anchor rod by a torn ring . 2. The anchor according to claim 1, characterized in that the end of the injection tube facing the bottom of the well is provided with shut-off and non-return valves. Sources of information taken into account in the examination 1. Recommendations on the design, technology, design and calculation of drilling anchors in non-rocky soils. WIOGS. Minmontazhspetsstroy USSR. L., 1974, p. 12-18. 2. USSR author's certificate in application number 2432167 / 29-33, cl. E 02 D 5/08, 1976.