RU2130994C1 - Pile and sheet pile sinking set - Google Patents

Abstract

FIELD: civil engineering; building of pile foundations. SUBSTANCE: set has base machine, driving-in mechanism mounted on base machine, boom with guides, weights and outriggers. Set has additionally bearing frame, support plate, gantry with cylinder, sinker and sinker lifting mechanism. Driving-in mechanism is made in form of cable-and-sheave system consisting of sinker with movable and fixed sheaves secured on bearing frame and cable one end of which is secured on winch drum and the other is secured on bearing frame. Sinker has lifting mechanism in form of single-acting hydraulic cylinders with cable pulley block and working liquid discharge system. Support plate is arranged under running gear of base machine and is suspended from running gear through guide rails and rolls for reciprocating along running gear tracks. Front outriggers are furnished with horizontal extension hydraulic cylinders. EFFECT: increased driving-in force, enhanced stability and maneuverability of set. 4 dwg

Description

 The invention relates to the construction, in particular, to the construction of pile foundations.

 A known installation for immersion of piles or sheet piles, including a base machine, a pressing mechanism mounted on it with hydraulic jacks and a clamp, a rotary arrow with a rotary guide pivotally attached to it, a loading device and outriggers (see, for example, copyright certificate N 734346, class E 02 D 7/20, 1978).

 A known installation for immersion of piles or sheet piles, including a base machine, a pressing mechanism mounted on it, an arrow with guides and outriggers (see USSR author's certificate N 1612057, class E 02 D 7/00, 1988).

 The disadvantage of these installations is the lack of indentation force, as well as low stability and maneuverability.

 Additional supply of the installation with a supporting frame, base plate, portal with a cylinder and a lift mechanism of the loader allows to increase the maneuverability and stability of the installation, increase immersion performance and work safety, reduce the minimum distance to existing buildings.

 The implementation of the pressing mechanism in the form of a cable-block system, consisting of a loader with movable blocks and fixed blocks fixed on a supporting frame, and a rope, one end of which is fixed to the winch drum and the other end is fixed to the supporting frame, allows immersion in one go without intercepting piles.

 The equipment of the loader with its lifting mechanism, made in the form of single-acting hydraulic cylinders with a rope pulley block, and a system for discharging the working fluid, can improve work safety due to the rejection of counterweights.

 The location of the base plate under the chassis of the base machine by means of rollers through guide rails with the possibility of reciprocating movement along the tracks of the chassis allows you to reduce pressure on the ground, as well as perform indentation next to existing structures.

 The equipment of the front outriggers with horizontal extension cylinders allows changing the support cast depending on the conditions of the construction site.

 The essence of the claimed invention is expressed by a combination of essential features sufficient to achieve the technical result provided by the invention, which consists in increasing the pressing force, as well as the stability and maneuverability of the installation.

 The claimed combination of essential features is in a causal relationship to the achieved result.

 Comparison of the claimed technical solution with the prototype made it possible to establish its compliance with the criterion of "novelty", since it is not known from the prior art.

 The proposed installation for the immersion of piles or sheet piles is industrially applicable using existing technical means and meets the criterion of "inventive step", since it does not explicitly follow from the prior art, while the latter does not reveal the essential features prescribed for transformation and characterized by distinctive features from the prototype, necessary to achieve the specified technical result.

 Thus, the proposed technical solution meets the criteria of the invention.

 The other known technical solutions for a similar purpose with similar significant features by the applicant was not found.

 The invention is illustrated in the drawing, where in FIG. 1 shows an installation for immersing piles or sheet piles, side view, in FIG. 2 is the same front view, in FIG. 3 is the same, top view, in FIG. 4 - lifting mechanism of the loader.

 The installation for immersion of piles or sheet piles includes a base machine 1, a pressing mechanism 2 mounted on it, an arrow 3 with guides, weights 4 and outriggers 5 and 6. The installation is additionally equipped with a supporting frame 7, a base plate 8, a portal 9 with a cylinder 10, and a loader 11 and the lifting mechanism of the loader 12. The squeezing mechanism 2 is made in the form of a cable-block system consisting of a loader 11 with movable blocks 13 and fixed blocks 14, mounted on a supporting frame 7, and a rope 15, one end of which is fixed on the winch drum 1 6, and the other end is mounted on a supporting frame 7. The loader 11 is equipped with a lifting mechanism 12 made in the form of single-acting hydraulic cylinders 17 with a rope pulley 18, and a system for dumping the working fluid 19. The base plate 8 is located under the chassis of the base machine and through the guides the rails 20 by means of rollers 21 are suspended from the chassis with the possibility of reciprocating movement along the tracks of the chassis, and the front outriggers 5 are equipped with hydraulic cylinders 22 of horizontal extension.

 The installation for immersion of piles or sheet piles is mounted on the base machine 1, for example, on an RDK-25 crawler crane, and includes a supporting frame 7, which is attached with lower axles to the boom eyes 23 of the base machine, and the upper belt through rods 24 with eyes 25 in the engine room of the rotary platform of the edge. Koprovy arrow 3 through the axis 26 is connected to the eyes 27 on the supporting frame 7 and using the axes 28 and 29, through the brace 30 with the portal of the base machine 1. In front of the coprow 3 with the possibility of movement along its guides mounted loader 11, which by means of a rope 31, through the guide blocks 32 of the jib boom 3 is connected by the lifting mechanism of the loader 12, and through the blocks 13 on the loader 11, using the ropes 15 of the pressing pulley 33 is connected to the fixed blocks 14 on the supporting frame 2 and then to the drum of the main winch 16 of the base machine 1.

 On the supporting frame 7, front outriggers 5 are mounted on the sides with pivotally mounted support plates 34, which can be pushed to the sides by means of hydraulic cylinders 22.

 On the rotary platform of the base machine 1 from the side of the counterweight using the axles 35, a rear outrigger 6 is mounted, on which a sliding base plate 36 is pivotally mounted.

 A hydraulic pumping station 37 is installed on the supporting frame 7, and there are also containers 38 for stacking weights 4.

 The base machine 1 is placed on the base plate 8, the dimensions of which correspond to the dimensions of the chassis of the base machine in plan. On the base plate 8 there are guide rails 20 through which, by means of the rollers 21, the plate 8 is suspended from the chassis of the crane and can be displaced along it by an amount equal to the difference between the length and width of the plate 8.

 The pile 39 is pressed in as a result of moving the loader 11 along the guide rails 35 of the chain hoist 33, when winding the rope 15 onto the drum of the main winch 16. The reactive forces arising from this are absorbed by the weights 4, the weight of all the attached equipment and the base machine 1.

 Installation works as follows. Using the hydraulic cylinders 22, the front outriggers 25 extend to the sides, providing a free rotation of the installation around its axis. Next, using outriggers 5 and 6, on plates 34 and 36, the installation together with the base plate 38 is raised above the ground surface. Then, using the rotation mechanisms of the base machine, the desired direction of movement of the installation is established, and using the rotation of the tracks the base plate 8 is moved relative to the chassis. Then, the plates 34 and 36 are lifted and, if necessary, the installation is moved along the base plate 8 in the direction to the pile immersion point. These operations are repeated until the collision point is hit. Further, when the hydraulic pumping station 37 is operating, the main winch 16 "to the lane" is turned on, while the pile loader 11, with the help of the lifting mechanism 12, rises to the desired height. By means of a rope 40, a pile winch 41, a pile 39 is pulled, brought under the headgear 42 of the loader 11 and installed on the immersion point. Then, using the front 5 and rear 6 outriggers, as well as the cylinder 10 on the portal 9, the pile 39 is set in a vertical position. When the main winch 16 is turned on, the force from its rope 15 is transmitted by means of pulley block 33 through blocks 14 on the supporting frame 7 to blocks 13 of the loader 11, which moves downward along the pile boom 3, pushing the pile 39.

 The lifting mechanism of the loader 12 is a one-piece block of two hydraulic cylinders 17 with a wire hoist 18, the fixed sleeve 43 of which is rigidly attached to the boom 3 and, using the axis 44, is connected to the sleeve eyes of the hydraulic cylinders 17. From the stationary holder 43 of the multi-shaft 18 via guide blocks 32 the rope 31 is retracted to lift the loader 11. The movable yoke 45 of the chain hoist 18 is connected to the rods of the hydraulic cylinders 17 using the axis 46. The movable yoke 45 is moved along the rear guides 47 of the boom 3.

The hydraulic cylinders 17 are single-acting cylinders, the piston chambers 48 of which are interconnected, and through the check valve 49 are connected to the pressure line of the hydraulic system 50, and through the pressure relief valve 51 to the return line 52; while the force in the runaway cable 31 of the chain hoist 18 of the lifting mechanism of the loader N, kH, is determined from the equality:
N = A • P _c • f ⁿ • (f-1) / (f ⁿ -1) (1)
and must satisfy the following condition:
N _p >N> Q _p (2)
where A is the total area of the pistons of the hydraulic cylinders, cm ² ,
N _p - breaking strength of the hoist of the chain hoist of the hoist mechanism of the loader, kH;
P _c - working pressure in the hydraulic system, MPa;
Q _p - the total weight of the pile loader and the weight of the rope in the pressing pulley, kH;
f - coefficient taking into account losses from friction and stiffness of the ropes when the block is enveloped;
n is the multiplicity of the stocking of the chain hoist of the loader lifting mechanism.

 When the pumping station 37 is operating in the piston chamber 48 of the hydraulic cylinders 17, and consequently in the rope 31, based on equality (1), there always exists a force that exceeds the force created by the weight of the loader 11 and the weight of the rope 15 of the pressing pulley 33. In this case, the static the position of the loader 11 is provided by the pressing pulley 33 with the main winch 16 not working.

 During operation of the main winch 16 "on the lane" in the pressing pulley 33, the holding force weakens and under the action of hydraulic cylinders 17 the movable holder 45 moves upward along the guides 47, which leads to a shortening of the rope 31 and, as a result, to the lifting of the loader 11 up along the guides arrows 3.

During operation of the main winch 16 "on top" in the pressing pulley 33, a force is created that significantly exceeds the holding force in the rope 31, which is transmitted through the pulley 18 of the lifting mechanism of the loader 12 and the pistons of the cylinders 17 to the hydraulic fluid. When the pressure in the cylinders 17 is greater than the pressure P _c , the check valve 49 blocks the access of hydraulic fluid from the cylinders to the pressure line 50 and the working fluid is discharged through the pressure relief valve 51 to the return line 52. In this case, the rods of the hydraulic cylinders 17 are retracted, the rapprochement of the movable 45 and the fixed 43 clips and, as a result, the extension of the rope 31, which allows the loader 11 to move down along the pile boom 3. In both cases, as when the main winch is "on the lane", and "on top", provides a constant tension of the ropes 15 and 31 and, accordingly, of the pressing pulley 33 of the lifting mechanism of the loader 12.

Claims (1)

 Installation for immersion of piles or sheet piles, including a base machine, a pressing mechanism mounted on it, an arrow with guides, weights and outriggers, characterized in that it is additionally equipped with a supporting frame, a support plate, a portal with a cylinder and a lifting mechanism for the loader, and the pressing mechanism is made in the form of a cable-block system consisting of a loader with movable blocks and fixed blocks fixed on a supporting frame, and a rope, one end of which is fixed to the winch drum, and the other end - on the supporting frame, and the loader is equipped with a lifting mechanism made in the form of single-acting hydraulic cylinders with a rope pulley, and a system for discharging the working fluid, while the base plate is located under the undercarriage of the base machine and is suspended from the chassis through rollers with the possibility of reciprocating movement along the tracks of the undercarriage, and the front outriggers are equipped with horizontal extension cylinders.

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