RU167384U1 - DEVICE FOR PERFORMING DRILLING PILES - Google Patents

Abstract

The utility model is aimed at simplifying the construction of injection piles, reducing material and labor costs by combining well drilling operations, immersing the packer in the well and stage-by-stage crimping. The specified technical result is achieved by the fact that the device for making the injection pile, includes a drill stand consisting of a multi-section two-cavity coaxial rod for feeding clay mortar and concrete mixture into the well, a rock cutting tool mounted on the lower section of the rod, and a swivel mounted on the upper section of the rod into the central cavity of the rod of the drilling fluid and concrete mixture, with the possibility of stage-by-stage crimping from the bottom - up the soil of the borehole walls. At the same time, an expandable elastic packer is mounted on the second section of the rod from below, above the rock cutting tool, the cavity of which is connected to the outer cavity of the rod with the possibility of supplying hydraulic fluid to it and creating inside the packer a pressure exceeding the compression pressure by 15-20%. 2 ill.

Description

The utility model relates to construction, namely to the device and reconstruction of the foundations of buildings and structures, in particular to devices for making injection piles.

Bored piles are most often performed to strengthen existing foundations. With the strengthening of existing foundations from drilling wells, the soil under the foundations is softened and they give sediment. Bored piles perform with pressure testing of the soil overpressure. Moreover, the higher the pressure of the crimping, the higher the quality of the injection piles and less deformation of existing foundations from drilling beneath them. /one/

Known devices for making injection piles in the form of a drill stand, consisting of hollow airtight screws, a rock cutting tip and a swivel for supplying liquid and concrete mixture to the well, with the possibility of drilling a well, subsequent pressure testing of the soil surrounding the well with concrete by feeding it under pressure through the cavity of the screws and gradual extraction of screws with simultaneous crimping. / 2 /

The disadvantage of this device is the inability to increase the pressure of the crimping in the well is higher than the hydrostatic pressure of the concrete mixture. This is due to the presence of gaps between the borehole wall and the cuttings that feed upward along the auger flange.

A device for making injection piles is known, consisting of hollow airtight screws, in which an earth plug is artificially created during drilling, due to the parameters of the screw flanges, which separates the lower part of the well to be crimped and its upper part. / 3 /

When using such a device, it is possible to raise the pressure of the crimping no higher than 0.3-0.4 MPa and only for a short time, and then the stopper breaks down and the solution exits, which is accompanied by a drop in its pressure.

Closest to the proposed one is a device in the form of a drill stand, consisting of a multi-section two-cavity coaxial rod for feeding clay mortar and concrete mixture into the well, mounted on the lower section of the rock cutting tool rod, and a swivel fixed on the upper section of the rod to allow clay clay to be fed into the central cavity solution, and into the outer cavity of the concrete mixture rod, with the possibility of stage-by-stage pressure testing of the walls of the well from the bottom up. /four/

Rotary drilling of a well with washing with drilling mud followed by the replacement of the drilling fluid with concrete is carried out using drill rods and a drill bit, the diameter of the latter equal to the diameter of the injection pile.

The disadvantage of this method and device for its implementation is the impossibility of stage-by-stage pressure testing of individual sections of the well, since pressure during pressure testing can be created only in the upper part of the well after completion of drilling, displacement of the drilling fluid and extraction of the drilling tool. In this case, the pressure is created through the conductor installed in the upper part of the well before drilling, into which the obturator is placed, through which the solution is supplied under pressure into the well. In this case, the concrete mortar acts by its pressure on the entire well. In this case, in the presence of leaks or weak interlayers in the soil within the depth of the well, the entire solution rushes under pressure to its weak sections, and the remaining sections of the well remain unconsolidated. As a result, the rest of the well and the soil under the foundations will undergo deformation. However, in the presence of weak interlayers in the soil or leaks, the pressure testing of the wellbore will be uneven in its depth, and in case of increasing pressure to achieve uniform pressure testing, the flow rate of the solution will be greatly increased compared to the stepwise pressure testing described above.

The technical task is to simplify the construction of injection piles, reducing material and labor costs when installing a injection pile by combining well drilling operations, lowering the packer into the well and stage-by-stage crimping.

The problem is solved in such a way that in the device for the implementation of the injection piles, including the drill string, consisting of a multi-section two-cavity coaxial rod for feeding clay mortar and concrete mix into the well, mounted on the lower section of the rod of the rock cutting tool, and on the upper section of the swivel rod for feeding in the Central cavity of the rod of the drilling fluid and concrete mixture, with the possibility of stage-by-stage pressure testing from bottom to top of the soil of the walls of the well, according to the utility model, on the second An expandable elastic packer is mounted on the bottom section of the rod below, above the rock cutting tool, the cavity of which is connected to the external cavity of the rod with the possibility of supplying hydraulic fluid to it and creating inside the packer a pressure that exceeds the crimping pressure by 15-20%.

The proposed device differs from the known one in that a expandable elastic packer is mounted on the second section of the rod from below, above the rock cutting tool, the cavity of which is connected to the outer cavity of the rod with the possibility of supplying hydraulic fluid to it and creating a pressure inside the packer that is 15-20% higher than the crimping pressure.

This design allows for pressure testing in stages using a packer mounted on the drill rod, which allows you to divide the well into two isolated zones and without pressure loss to pressure test the soil walls of the well with pressure increase. This gives a reduction in material and labor costs during pressure testing of the well, because combines the process of drilling and lowering the packer into the well.

In FIG. 1 shows a device for making injection piles; FIG. 2 - section A in section.

The device consists of a coaxial two cavity rod 1, consisting of sections interconnected along the length of the well. A rock-cutting tool 2, made in the form of a conical tip and a plug 3 of the external cavity, is fixed on the lower section. A swivel 4 is installed on the upper section, through which clay mud is supplied while drilling the well into the outer cavity of the rod 1, and the concrete mixture during crimping. An expandable elastic packer 5 is mounted on the second lower section of the coaxial rod 1, the cavity of which is connected to the outer cavity of the coaxial drill rod 1 by perforation 6. The hydraulic fluid is supplied through the swivel 4 to the outer cavity of the rod to expand the elastic packer 5.

Coaxial drill rods 1 have two isolated cavities - internal and external. In the inner cavity of the coaxial rods 2 through the swivels 4 are fed drilling mud while drilling and concrete solution when concreting piles, and fluid is supplied into the outer cavity to expand the elastic packer 3, which can expand and to create pressure for 15-20% of pressure of pressure testing.

The device operates as follows.

Using a drill stand, consisting of coaxial drill rods 1 having a rock cutting tool in the lower part 2 and an expandable elastic packer 5 installed on the second behind the head drill rod, drill with clay mud through a swivel 4 and a rock cutting tool 2 and drill holes for a drill injection pile to a predetermined depths. Then, through the internal cavity of the coaxial drill rods 1, the drilling mud is replaced with fine-grained concrete through a fixed drilling stand with a rock cutting tool 2 located in the lower part of the well. After the solution is completely replaced with concrete, which is confirmed by the exit of a clean concrete solution to the surface, interval testing of the walls of the well is carried out by height using the ascending method, i.e. upwards. The length of the interval of the borehole to be crimped is determined by the length of the sections of the rod 1. To do this, fluid is supplied to the outer cavity of the coaxial rod to expand the elastic packer 5 under a pressure exceeding the expected pressure of the crimping by 15-20%. At the same time, the elastic expandable packer increases in volume and, bursting into the walls of the well, divides the well into two cavities, the lower of which turns into a sealed one. Then, while holding the pressure of the hydraulic fluid in the expanding packer 5, concrete mortar is fed through the rock cavity tool 2 through the rock cavity tool 2 into the lower airtight cavity of the well, withstanding the pressure of compression, usually 3-5 minutes. In the event of the concrete mortar coming to the surface, the pressure in the packer is increased until the mortar is stopped. After crimping the bottom of the well in the depth interval from its bottom to the packer installation level, the pressure in the packer is relieved to zero, while packer 5 is reduced in volume and the drill stand is raised without rotation, the upper section of the drill stand is disconnected and the described crimping operation is repeated, and so to the crimping depth specified in the design. After filling the concrete and crimping the well, a reinforcing cage is installed in it, on which the device of the injection pile is completed.

Information sources:

1. "Recommendations for the design and construction of foundations from injection piles", M, NIIOSP, 1982, p. 5-12.

2. RF patent No. 95687, cl. E04F 5/16 publ. 07/10/2010 g

3. RF patent No. 109475, cl. E04F 5/00, publ. 10/20/2011

4. The Internet. "JET-2 bar." Website: UNITOOLS, "unitools.ru/jet-grouting/jet-2/shtanga-jet-2.html/ / prototype /.

Claims (1)

A device for making an injection pile, including a drill stand, consisting of a multi-section two-cavity coaxial rod for feeding clay and concrete mixture into the well, mounted on the lower section of the rock cutting tool rod, and mounted on the upper section of the swivel rod for feeding the drilling fluid into the central cavity concrete mixture, with the possibility of stage-by-stage pressing from the bottom-up of the soil to the walls of the well, characterized in that in the second section of the rod from below, rock is destroyed above The expansion tool is equipped with an expandable elastic packer, the cavity of which is connected to the outer cavity of the rod with the possibility of supplying hydraulic fluid into it and creating a pressure inside the packer that is 15-20% higher than the crimping pressure.