RU42232U1 - TECHNOLOGICAL COMPLEX "SPS" FOR CONSTRUCTION BLOWER - Google Patents

Abstract

ABSTRACT TECHNOLOGICAL COMPLEX "SFS" FOR CONSTRUCTION OF A BLOCKWORK Use: devices for carrying out work in hydraulic engineering during the construction of berthing facilities. Essence: creation of a technological complex for the construction of a hydraulic engineering structure using an external conductor of a special design for installing sheet pile piles and consecutive installation of spans. accuracy and reliability of the installation of a bollard, the possibility of using sheet piles different diameters, reducing construction time and reducing the complexity of work while simplifying the process of erecting a hydraulic structure. 1 p. and b s.p. f-ly, 3 Fig.

Description

The technical solution relates to devices for carrying out work in hydraulic engineering construction and can be used for the construction of berthing facilities.

The erected hydraulic structure traditionally includes [5-7] pile supports with a grillage installed on them.

Typical analogues of complexes for the construction of hydraulic structures are devices [2, 3], which modify traditional structural designs [4-7].

The device [2] contains a working platform with equipment for concrete work and a set of means for the construction of a berthing structure, including pile supports with a grill installed on them. Moreover, in the device [2] the working platform is made on the floating base of the watercraft (pontoon) with subsequent transportation of products (piles, columns, grillage slabs) by this watercraft to the installation site, which is carried out using hoisting-and-transport mechanisms on this watercraft.

The disadvantage of the device [2] are the complexity, complexity and high capital costs associated with the use of boats. Dependence on weather conditions (wave mode) cannot, in a number of cases, ensure the planned construction time, and the use of a number of

floating in shallow water is very difficult. The disadvantages of the installation [2] make it difficult to achieve the optimal production criterion "complexity - cost - efficiency", ie achieving the maximum possible efficiency (reducing the time of work, reducing the complexity and material consumption) with acceptable complexity and cost.

The complex [1] for the construction of a berthing facility, adopted as a prototype, allows you to abandon the use of complex, expensive and inapplicable in the conditions of significant excitement of watercraft for work and transportation of building elements and to mount a hydraulic structure with a section-wise grillage by successive sliding plates.

The complex [1] contains a working platform with equipment for concrete work and a set of means for the construction of a berthing structure (PS), including pile supports with a grillage installed on them. The working platform of the complex [1] is made in the form of a longitudinal horizontal slipway located on land near the shoreline, equipped with equipment for the production of PS grill slabs. The set of means for the construction of substations includes lifting devices, an installation for mounting pile supports of the base of the substation, jacking devices for sequential horizontal movement of plates along the supporting guide limiters with the possibility of section-by-stage extension of the grill of the substation and the module for final installation work. The slipway is made in the form of a reinforced concrete slab with a metal upper plane and is equipped with slots for securing the jack stops. The equipment of the slipway is made with the possibility of producing reinforced concrete slabs with a metal lower base and holes for installation on pile supports. The set of means for the construction of the substation is placed on the slipway with the ability to move to the installed slabs grill PS, sequentially

pushed along the supporting guide restraints on the pile supports of the base of the substation using jacking devices.

However, in a number of cases, the technology [1] of successively pushed plates along supporting guide stops on pile supports installed in wells pre-drilled for them cannot satisfy the complex requirements for reducing installation time while reducing its complexity due to relative complexity and the need for auxiliary operations ( drilling holes under piles, installing jacks, manufacturing plates of a special design) and depending on weather conditions and wave conditions.

Simplification of the process of erecting a hydraulic structure while reducing labor intensity and shortening construction time can be achieved through the use of a special design - an exposed conductor (application No. 2004117439/22 dated 06/11/2004, the decision to grant a patent on 07/07/2004), which provides section-by-section expansion of spans grillage. Improving the accuracy and reliability of the installation of pile supports of flyovers or sheet piles of a bollard (berthing structures in the form of a wall [5]) can be realized by using a conductor of a special design.

The essence of the proposed technical solution is to create a technological complex for the construction of a hydraulic structure using a remote (exposed) conductor of a special design for installing sheet pile piles of the bollard row of the berth and subsequent sequential installation of berth spans.

The main technical result of the proposed technological complex is to increase the accuracy and reliability of the installation of tongue-and-groove pile piles due to the use of telescopic clamps located in two levels of the conductor, as well as through the installation of additional seal pipes between the sheet piles. At the same time, the use of telescopic clamps allows the use of a conductor for

Structures of a pile of sheet piles of different diameters. In addition, due to the use of the exposed conductor, a reduction in construction time and a reduction in the laboriousness of immersion of the boulevard row of berth piles are achieved.

The technical result is achieved as follows. The technological complex for the construction of a bollard contains a working platform, a set of means for mounting a bollard row of a berth (PDU) from sheet piles, and the working platform on a ground massif of a berth is equipped with equipment and prefabricated elements for mounting a PDU, and the set of means for installing a PDU includes a lifting device in the form a crane and an installation for the installation of sheet pile piles with sectional extension of berth spans.

The main difference of the complex is that the installation for the installation of sheet piles includes a conductor frame set horizontally at the design position along the span of the berth with a two-level conductor mounted on it, one end of which is mounted on the ground mass of the berth, and the second remote end rests on the last shipped pile made by the PDU and secured to it by an eccentrically placed stopper. The conductor is equipped with at least one aperture made in the form of a glass for placement at the specified distance from the last shipped pile of the PDU made by the next sheet pile to the design position by means of a crane with the subsequent installation of this pile with telescopic clamps in the conductor opening and immersing it in the ground with a driven projectile to the required depth. Moreover, telescopic clamps are installed in each of the two levels of the conductor, and between the sheet piles of the PDU, seal pipes are additionally mounted.

The complex also differs in that in each of the two levels of the conductor, three telescopic clips are installed at an angle of 120 ° to each other.

In this case, each telescopic lock includes a glass fixed to the base on the wall of the conductor aperture with a console placed in it, which extends a predetermined distance to adjust the position of piles of various diameters by means of a screw rotated by the lever, and the console is provided with an elastic element made for example on the end pressed to the pile, for example , in the form of a plate of ftoroplast.

In addition, the complex is distinguished by the fact that a crane and prefabricated PDU elements are placed on the working site, including sheet piles made in the form of large diameter metal pipes, small diameter sealing pipes and slabs to cover berth spans, and other equipment, including a driven projectile for driving sheet piles.

The difference of the complex is also that a hammer, or a vibro-loader, or other driving device, moved from one pile to another by means of a crane, is used as a driven-in projectile for driving sheet-pile piles.

The conductor frame is equipped with flooring and fencing and is equipped with a technological platform for installation work.

In the specific case of the complex, the crane and the installation for the installation of sheet pile piles are made with the possibility of sequential sectional increase of the berth spans by moving the crane onto the installed slabs of the next span to expose the conductor frame with the conductor to the design position of the subsequent span berth.

Figure 1 presents a general diagram of the design of the complex for the construction of a bollard, figure 2 shows a top view, figure 3 shows a general structural diagram of a telescopic retainer.

The technological complex "SFS" (the special name of the company "SPETSFUNDAMETSTROY") includes (Fig. 1, 2) a working platform 1, sheet piles 2, spans (slabs) 3 berths, a crane 4, a conductor frame 5, a conductor 6, a lower level 7 the conductor, the upper level 8 of the conductor, the last submerged pile 9, the stopper 10 of the conductor, the opening 11 of the conductor, mounted tongue-and-groove pile 12, telescopic clamps 13 of the lower level of the conductor, telescopic clamps 14 of the upper level of the conductor, hammer 15, pipes 16 seals, flooring 17 of the conductorframes, fence 18, the technological platform 19 of the conductor. The telescopic lock (figure 3) includes a glass 20, a console 21, a screw 22, an elastic element 23 and a lever 24.

The operation of the SPS complex for the construction of a bollard is illustrated by the following example.

On the working platform 1 there is a crane 4 and prefabricated elements used in the construction of the PDU; sheet piles 2, made in the form of large-diameter metal pipes, plates 3, sealing pipes 16, and other equipment (not shown in the drawing), including a driven projectile 15 for driving piles 2 to the required depth. The crane 4 exposes the conductor frame 5 with a two-level conductor mounted on it 6. The conductor frame 5 and the conductor 6 are set horizontally to the design position along the span of the berth, while one end of the conductor frame 5 is installed on the ground mass of the berth, and the second remote end frame 5 is based on the last shipped pile 9 made PDU and secured to it by an eccentrically placed stopper 10.

In the opening 11 of the two-level conductor 6, the crane 4 feeds the sheet pile 12, which is set to the design position by means of telescopic clamps 13 and 14, located in the opening 11 at the lower level 7 and the upper level 8 of the conductor 6. Telescopic

the latches 13 and 14, located at an angle of 120 ° to each other in two levels 7 and 8 of the conductor 6, reliably and accurately fix the installed sheet pile 12 vertically in the design position relative to the previously immersed pile 9. The operation of the latches 13 and 14 (Fig.3 ) consists in extending the console 21 from the cup 20 by turning the screw 24 by the lever 24. The elastic elements 23 at the end of the clamp consoles 21, pressing against the pile 12 at an angle of 120 °, allow you to adjust the position of piles of various diameters. In the particular case, the elastic element 23 can be made, for example, in the form of a plate of fluoroplastic.

The pile 12 is immersed to the required depth with a driven projectile 15, which can be used as a hydraulic hammer, or a vibratory driver, or another driven device, moved from one pile to another by means of a crane 4. All installation work is carried out from the flooring 17 of the technological platform 19, which has a protective fence 18.

Then, sealing pipes 16 are installed and fixed, which allow to make a continuous wall of the bollard .. After completing the installation of the next section (span) of the berth, the crane 4 moves to the installed plates 3 to rearrange the frame 5 with the conductor 6 to a new design position, thereby performing sequential sectional expansion of spans berth.

Thus, due to the use of telescopic clamps located in two levels of the conductor and due to the installation of additional seal pipes between the sheet piles, the accuracy and reliability of the installation of the bollard are increased. In this case, the use of telescopic clamps allows the use of one conductor for the construction of bollards from sheet piles of different diameters. By means of a remote conductor of a special design for installation of piles and sequential installation of berth spans, a reduction in the complexity of work is achieved while simplifying the process of immersion PDU, increases

reliability of PDU installation; the possibility of uninterrupted operation is realized regardless of weather conditions and unrest in the water area. At the same time, as the experience of PSF “Spetsfundamentstroy” (Gelendzhik) on the installation of PDU in the Black Sea shows, the installation time for each span of the berth is reduced by 3-4 times due to the use of the proposed conductor design, which allows us to judge the implementation of the technical result on optimization of the criterion "complexity - cost - efficiency".

BACKGROUND OF THE INVENTION

I. Prototype and analogues:

1. RU 18405 U 1, 20.06.2001 (prototype).

2. RU 2098558 C 1, 12/10/1997 (analogue).

3. RU 2107128 C 1, 03.20.1998 (analogue).

4. RU 1629370 A 1, 04/10/1991 (analogue).

II. Additional sources of prior art:

5. Berthing facilities. - In the book. "Marine Encyclopedic Reference: In 2 volumes. Volume 2 / Ed. N.N. Isanina. - L .: Shipbuilding, 1987, 520 p. (p.134-136).

6. Nikerov P.S., Yakovlev P.I. Seaports. - M: Transport, 1987, 416 p. (p.118-274).

7. Ambaryan O.A., Goryunov B.F., Belinskaya L.N. The device of seaports. - M .: Transport, 1987, 272 p. (p. 122-199).

Claims (7)

1. Technological complex for the construction of a bollard, containing a working platform, a set of means for mounting a bollard row of a berth (PDU) from sheet piles, and the working platform on a ground massif of a berth is equipped with equipment and prefabricated elements for mounting a PDU, and the set of means for installing an PDU includes a lifting a device in the form of a crane and an installation for the installation of sheet pile piles with a sectional extension of berth spans, characterized in that the installation for the installation of sheet piles includes an exhibition a conductor frame with a two-level conductor mounted on it with a crane horizontally to the design position along the span of the berth, one end of which is mounted on the ground mass of the berth, and the second remote end rests on the last submerged pile made by the PDU and fixed on it by an eccentrically placed stopper, the conductor equipped with at least one aperture made in the form of a glass for placement at the specified distance from the last shipped pile made by the PDU another sheet pile design position by a crane with the subsequent installation of the pile telescopic latches in the opening and the conductor by immersing it into the ground precast projectile to a desired depth, the telescopic latches are installed in each of the two conductor layers and between the piles PDUs tongue and groove further sealing the pipe mounted. 2. The complex according to claim 1, characterized in that in each of the two levels of the conductor three telescopic clips are installed at an angle of 120 °. 3. The complex according to claim 1, characterized in that each telescopic latch includes a glass fixed to the base on the wall of the conductor aperture with a console placed in it, which extends a predetermined distance to adjust the position of piles of various diameters by means of a screw rotated by the lever, and the console is pressed to the pile end is equipped with an elastic element made, for example, in the form of a plate of fluoroplastic. 4. The complex according to claim 1, characterized in that the crane and prefabricated PDU elements are placed on the working platform, including sheet piles made in the form of large diameter metal pipes, small diameter sealing pipes and slabs for covering berth spans, and other equipment , including a driven tool for driving sheet piles to the required depth. 5. The complex according to claim 1, characterized in that as a driven projectile for driving sheet pile piles, a hydraulic hammer, or a vibratory driver, or another driven device, moved from one pile to another by means of a crane. 6. The complex according to claim 1, characterized in that the conductor frame is equipped with flooring and fencing and is equipped with a technological platform for installation work. 7. The complex according to claim 1, characterized in that the crane and the installation for the installation of sheet pile piles are made with the possibility of sequential sectional extension of the berth spans by moving the crane to the installed slabs of the next span to set the conductor frame with the conductor to the design position of the next berth span .