RU2713019C1 - Mobile unit for static testing of dies and piles - Google Patents

Abstract

FIELD: test technology.

SUBSTANCE: invention relates to engineering survey and is intended for static testing of dies and piles for indentation during designing and construction of buildings and structures. Mobile unit for static testing of dies and piles consists of jack, thrust structure, anchors, reference system and displacement sensors. Thrust structure is collapsible, on bolted connections, spatial structure in form of geodesic dome with plate located in upper tier, and anchors located along perimeter of base, ramp force from jack is uniformly distributed by plate through nodes of geodesic dome on all its elements and is perceived by anchors.

EFFECT: technical result is high mobility of the apparatus for carrying out static tests of dies and piles during transportation, installation and dismantling of all its elements by reducing their length and weight as a result of use as a thrust structure for jack of collapsible geodesic dome on bolted connections with plate located in upper tier and anchors located along perimeter of base.

6 cl, 6 dwg

Description

The invention relates to the field of engineering surveys and is intended for conducting static testing of dies and piles for indentation in the design and construction of buildings and structures.

Static soil tests by stamps are performed in the field to determine the strength and deformability characteristics of soils during their study for design and construction.

Static soil tests by piles (full-scale, standard, probe piles) are performed in the field to determine their bearing capacity, length, quantity, and also to verify the conformity of the bearing capacity of piles to design loads (control tests).

A device for static testing of piles (patent RU 156920 U1 IPC E02D33 / 00 publ. 11/20/2015 Bull. No. 32), comprising a hydraulic jack, a motion detector with measuring instruments, a persistent cross-shaped platform, each end of which is installed between two screw supports, by means of connected with the last cross members, the persistent cross-shaped platform is made flat, slots are made at its ends, the screw support is detachable and consists of a screw and a rod, while the lower part of the rod has a through lateral hole for connection of auger finger crossmember formed with slots at the ends and a hole at the center and displacement determinant instrumentation mounted on a side surface of the pile under test, wherein the cruciform platform fixed to twelve screw supports.

The disadvantages of this utility model are as follows:

• thrust device is made in the form of an all-welded flat thrust cross-shaped platform, which limits its scope in remote and inaccessible areas due to the involvement of large-sized construction equipment for transportation, installation and dismantling of this platform;

• measuring instruments for determining pile settlement are fixed directly on the side surface of the tested pile, which does not meet the requirements of GOST 5686 “Soils. Field test methods for piles. "

A known installation for static testing of piles using anchor piles (patent RU 180952 U1 IPC E02D 33/00 publ. 07/02/2018 Bull. No. 19), including a support beam with distribution travers fixed to it, characterized in that the support beam is mounted on a support beam traverses pairwise connected to distribution traverses using threaded rods and nuts, while distribution traverses are equipped with second strands, the upper ends of which passed through the distribution traverses are fixed with two nuts, and at the lower ends cords made fasteners for connection with anchor piles. The disadvantages of this utility model are as follows:

- multi-row arrangement of anchor piles of distribution traverses during loading of the test pile leads to different transmission of the pulling load on the anchor piles;

- an increase in the number of anchor piles of distribution traverses will lead to a decrease in the efficiency of their work on pulling loads;

- the use of several rows of distribution traverses and a large number of anchor piles requires the use of a massive support beam;

- the use of distribution traverses and a support beam limits the scope of this technical solution in remote and inaccessible areas, due to the involvement of large-sized construction equipment for transportation, installation and dismantling of installation elements.

A known bench for testing piles with static loads (patent RU 181308 U1 IPC E02D33 / 00 publ. 07/10/2018 Bull. No. 19), adopted as a prototype, including load beams and crossbars with connecting rods and screw supports installed at the ends, hydraulic jack and measuring indicators displacements, beams and crossbeams are installed mutually crosswise at least twice to form a thrust platform of the required load capacity, while the stand is equipped with additional crossbars, screw supports and connecting rods for and x installation and adjustment of the type of static load for testing piles.

The main disadvantages of the prototype are as follows:

• the use of load beams and additional crossbars limits the scope of application of this technical solution in remote and inaccessible areas due to the involvement of large-sized construction equipment for transportation, installation and dismantling of installation elements;

• the complexity and inconvenience of mounting the installation elements due to the need to use connecting rods of a significant cross-sectional area to ensure the stability requirements of the "load-beam-crossbar-rod" system.

The technical result of the invention is to increase the mobility of the installation for conducting static tests of dies and piles during transportation, installation and dismantling of all its elements by reducing their length and weight as a result of the use of a collapsible collar on bolted joints of a geodesic dome with a plate located in the upper tier and anchors located along the perimeter of the base.

The causal relationship between the claimed essential features and the technical result is as follows. The use of a collapsible design of a geodetic dome as a resistant structure for a jack will ensure the stability of the "jack-resistant construction-anchors" system due to its spatial shape and the equidistance of the anchors from the stamp or pile. The connection of the rods of the geodetic dome in the nodes using bolted connections will reduce the length and weight of the installation elements, as well as speed up the process of its installation and dismantling. The plate located in the upper tier of the geodesic dome will allow you to evenly distribute the spacer force from the jack through the nodes of the dome over all elements of the installation. The spacer force from the jack in the rods of the dome will be distributed in the form of tensile and compressive forces, and in the anchors in the form of a pulling load. The spatial shape and equidistance of the anchors from the stamp or pile allows all anchors to experience the same value of the pulling load. The use of screw piles that are incremented in depth as an anchor will allow testing dies or piles in a different load range. The number of anchors located around the perimeter of the installation will vary depending on the type of soil, length, diameter or side of the cross section of the anchor, as well as the value of the pressing load that will be applied to the stamp or pile. The small length and mass of all the elements of the installation will increase its mobility during transportation to the place of static testing, as well as carry out their installation and dismantling without involving large-sized construction equipment.

The invention is illustrated by drawings.

Figure 1 shows a mobile installation for conducting static testing of dies.

Figure 2 shows a top view of a mobile installation for conducting static testing of dies.

Figure 3 shows a section 1-1.

Figure 4 shows a mobile installation for conducting static tests of piles.

Figure 5 shows a top view of a mobile installation for conducting static tests of piles.

Figure 6 shows a section 2-2.

Description of the claimed technical solution

A mobile installation for conducting static testing of dies and piles consists of a jack 1, a thrust structure in the form of a collapsible geodetic dome 2 with bolts, with a plate 3 located in the upper tier of the dome 2, anchors 4 located along the perimeter of the base of the dome 2, the reference system 5 and displacement sensors 6. The thrust force from the jack 1 is perceived by the plate 3, is evenly distributed through the nodes of the geodesic dome 2 over all its elements and is perceived by anchors 4 made of stackable depth of screw piles.

The technological sequence of installation of a mobile installation for conducting static tests of dies and piles is as follows. An jack 1 is installed on the test die 7 or pile 8. Anchors 4 are made at an equidistant distance from the axis of the test die 7 or pile 8. After the anchors 4 are installed, the geodetic dome 2 is assembled on bolted joints. After assembling the dome 2, a plate 3 is mounted in its upper tier. Next, the reference system 5 is installed with the displacement sensors 6 placed on it.

The principle of operation of a mobile installation for conducting static tests of dies and piles is as follows. The loading of the stamp 7 or piles 8 is carried out by a spacer force from the jack 1, which is evenly distributed by the plate 3 through the nodes of the geodesic dome 2 over all its elements and is perceived by anchors 4 made of screw piles that are incremented along the depth. Under the action of the spacer force from the jack 1, stamp 7 or pile 8 is immersed in the ground. The immersion of the stamp or piles in the ground is measured using displacement sensors 6 located on the reference system 5.

The technological sequence of dismantling a mobile installation for conducting static testing of dies and piles is carried out in the reverse order from its installation.

Claims (6)

1. Mobile installation for conducting static tests of dies and piles, consisting of a jack, a thrust structure, anchors, a reference system and displacement sensors, characterized in that the thrust structure is a collapsible, bolted, spatial structure in the form of a geodesic dome with the plate located in the upper tier, and the anchors located around the perimeter of the base, the expansion force from the jack is evenly distributed by the plate through the nodes of the geodesic dome over all its electric cops and perceived anchors. 2. Mobile installation according to claim 1, characterized in that the number of anchors located around the perimeter of the installation will vary depending on the type of soil, length, diameter or side of the cross section of the anchor, as well as the value of the pressing load that will be applied to the stamp or pile. 3. The mobile installation according to claim 1, characterized in that the barrels, shells, anchor plates, piles of the following types can be used as anchors: driven, pressed, vibrated, lowering, drilling, screw, printed, bored, injection, stamped and them various combinations, as well as any other structures rigidly fixed in the ground. 4. The mobile installation according to claim 1, characterized in that as a device for loading a stamp or pile, jacks of hydraulic, mechanical, pneumatic and electrical principles of operation can be used. 5. The mobile installation according to claim 1, characterized in that the installation elements can be connected using bolt, screw, pin, key, pin, pin, splined, riveted, welded, adhesive, soldered, molded, pressed and flared connections. 6. The mobile installation according to claim 1, characterized in that the rods of the geodesic dome can be made of the following profiles: pipes, closed profile, channel, I-beam, corner, etc., while the elements working in tension can be made of ropes.

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