RU2628357C1 - Method of structure movement - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method of movement includes separating the structure from the foundation, lifting it to a predetermined height, preparing base elements under the lower part of the structure, installing at least two guides on the base elements, and laying rolling elements thereon. The guides are made in the form of wooden beams placed in a direction that coincides with the structure movement direction. As rolling elements, long-length metal pipes are chosen. They are placed at a distance from each other in the transverse direction or at an angle to the movement direction with the projection of their ends beyond the width or length of the lower part of the structure.

EFFECT: reduced labour costs when moving buildings.

9 cl, 5 dwg

Description

The invention relates to construction, in particular to methods of moving buildings used in the repair, restoration or reconstruction of buildings, as well as in redevelopment of the territory, and can be used to move not only buildings, but also any other structures, large objects with the aim of changing them location.

The movement of various kinds of buildings and massive elements was carried out from ancient times. From the existing level of technology, there is a known method of moving buildings, including preparing the base with laying a horizontal path for moving the building, separating the building in the cut plane from the foundation or basement, bringing parts of a rigid metal or reinforced concrete frame with transverse connections under the capital walls and lifting the building with jacks . Under the metal or reinforced concrete frame, devices for movement in the form of steel rollers or balls are installed, the rollers rest on the channels or rails of the movement path, laid on a wooden base of beams and sleepers (see, for example, SU 49141, published on 08.31.1936).

Also known is the method of moving the structure, selected as the closest analogue and carried out using traction elements using base structures, guides and rolling elements. Metal rollers are used as rolling elements, metal rails or a channel are used as guides (see, for example, US 722256, publ. 10.03.1903).

A disadvantage of the known technical solutions is the low coefficient of friction and, as a consequence, the slipping of metal rollers on metal rails, as well as insufficient smoothness of movement. In addition, in both solutions there is a need to construct a rigid metal or reinforced concrete support frame under the lower part of the structure, which significantly increases the cost of work and installation, increases the time required for work by several times, and also complicates safety precautions due to the need for welding and metal cutting under structure.

The task to which this technical solution is directed is to eliminate these shortcomings.

The problem is achieved due to the fact that the method of moving the structure, carried out using traction elements using base structures, guides and rolling elements, according to the technical solution, includes separating the structure from the foundation, raising the structure to a given height, preparing under the lower part of the base structure with alignment the upper surfaces of the base elements facing the lower part of the structure, in one horizontal plane, installation on the base of at least two guides x, made in the form of wooden bars placed in the direction coinciding with the direction of movement of the structure, laying on the wooden bars of rolling elements made in the form of long metal pipes located at a distance from each other transversely and / or at an angle relative to the longitudinal axes of the guides with a protrusion pipe ends beyond the width or length of the lower part of the structure, and if necessary, before lowering the structure onto metal pipes, the lower part of the structure is aligned in the same plane with lining.

Wooden beams can be made of wood with a density of 400-700 kg / m ³ and a hardness of 150-600 kgf / cm ^{2 of} square, rectangular cross-section or in the form of a carriage.

The number of long metal pipes can be selected based on the maximum allowable working load on the pipe, which is 1000 kg.

Lifting buildings can be carried out with jacks, or pneumatic pillows, or wedges, or levers.

The base can be made in the form of sleepers or sleepers, placed on supports.

As supports for sleepers or sleeper stands can use a wooden beam.

As supports for sleepers or sleepers, screw piles can be used.

The movement of the structure is carried out using traction elements made in the form of pushing or pulling mechanisms of a manual or mechanical drive.

Before the rise of communications, buildings can switch to a temporary circuit.

The technical result provided by the above set of features is to simplify installation, reduce the material consumption of structures used during installation, and increase fire safety.

Unlike all-metal or wooden rollers, metal pipes are much lighter, have sufficient strength, are easily welded to increase length. Unlike conventional rollers, rigging trolleys, and wheelsets, metal pipes completely cover the plane below the lower part of the base of the structure, supporting all elements of the structure. The absence of a rigid frame and metal rails in the construction reduces the cost of work and installation, reduces the time of work by several times, and simplifies safety procedures. Work under the building is completely fireproof due to the lack of welding and metal cutting. Wooden guides, unlike metal ones, reduce the slipping of metal pipes and allow moving more “gently”. Wooden bars are much lighter than steel with equal strength. Installation of wooden bars is simpler and during installation does not require the use of mechanisms and devices, as it is mounted manually. Guides made of wooden beams do not require the use of welding and cutting, as for mounting a metal structure, which is safe for workers and fireproof.

The essence of the claimed invention is illustrated by drawings, not covering and, moreover, not limiting the scope of the claims for this technical solution, but only explaining the essence of the technical solution, where

in FIG. 1 shows a diagram of the movement of the structure, front view;

in FIG. 2 shows the same as in FIG. 1, side view;

in FIG. 3 shows a laying diagram of long metal pipes for moving in a straight line;

in FIG. 4 depicts the same as in FIG. 3, for the implementation of the rotation or reversal of the structure;

in FIG. 5 shows a structure moving structure with alignment of the lower part of the structure in one plane.

The method of moving the building 1 includes the following steps. Building 1 is separated from the foundation, raised to a predetermined height and prepared under the lower part of the structure 1 base 2 with the alignment of the upper surfaces of the base elements facing the lower part of the structure in one horizontal plane. On the base 2, the guides 3 are laid with their institution under the lower part of the structure 1 and placement in the direction coinciding with the direction of movement of the structure. Lay the rolling elements 4 on the guides 3 and lower the structure 1 onto the rolling elements 4. After that, a force is applied to move the structure 1 with the help of traction elements. As guides 3 use wooden bars. As elements 4 rolling use long metal pipes. They are stacked at a distance from each other in the transverse direction to move in a straight line or at an angle to the direction of movement to make a turn with the protrusion of their ends beyond the width or length of the lower part of the structure 1 on wooden beams, while ensuring that the metal pipes overlap the lower part 5 of the structure over its entire width or length.

In order to ensure that the elements of the lower part of the structure 1 support long metal pipes in case the lower part of the structure is at a different level, before lowering the structure onto the long pipes, the lower part of the structure is leveled in the same plane using pads 6 and / or skis 7.

The rise of the structure 1 is carried out to the height necessary for the installation of the base 2 under it, the guides 3 and the rolling elements 4. Lifting is carried out as evenly as possible with jacks or other lifting mechanisms (pneumatic pillows, wedges, levers, etc.). Slight distortions and unevenness of rise for wooden, metal, frame and other structures are allowed depending on the permissible dynamism of their design. The uneven rise or lowering of individual parts of the building will inevitably lead to the appearance of cracks or the destruction of structural elements of the building 1.

The base 2 is prepared in one strictly horizontal plane and is made in the form of sleepers or sleeper stands, placed on supports or directly on the ground. As supports for sleepers or sleepers, a wooden beam is used. In some cases, with a high displacement height or weak bearing base, screw piles are used as supports for sleepers or sleepers. The calculation of a sufficient number of sleepers or sleeper stands, as well as the area of support on the ground, or ice, or snow cover is made taking into account the bearing capacity of the soil surface during the work and the weight of the structure 1, as well as taking into account possible changes in the properties of the soil during the work - thawing of soil or flooding with atmospheric or groundwater. In the process of moving the building 1, the subsidence of the supports is compensated by the wedging of the guides 3 with wooden wedges or leveled by jacks. If necessary, additional supports are installed.

The guides 3 are installed in the same plane so that there is no deformation of the structure. To ensure a smooth ride as guides 3 use wooden bars. Wooden bars are much lighter than steel with equal strength. The installation of wooden beams is simpler and during installation does not require the use of mechanisms and devices, since the installation is done manually, which facilitates the installation of travel routes. When installing guides 3 from a wooden beam, the use of welding and cutting is not required, as when installing metal structures, which ensures technical and fire safety of the work. Mounting occurs with metal corners and bolts. Rejected rails are sawn and used as sleepers. If necessary, you can easily and quickly add the required number of guides 3 in the process of moving the structure 1. The ability to change the number of guides already in the process of moving makes it possible to rectify the situation if, during the process of moving, errors are detected in the calculations made at the design stage of the process of moving the structure. The execution of wooden bars of square, rectangular cross-section or in the form of a carriage is due to the need for a complete fit of the end parts of the pipes to the surface of the wooden bars to achieve a smooth ride when moving the structure.

To ensure a smooth ride, the wooden beams are made of wood with a density of 400-700 kg / m ³ and a hardness of 150-600 kgf / cm ^{2 of} square, rectangular cross-section or in the form of a carriage. When choosing the material of the guides 3, the ability of wood to resist the introduction of more solid bodies into it is of great importance. This resistance should be such as to optimize the friction-rolling force, but at the same time avoid slipping of the rolling elements 4 relative to the guides 3. It has been experimentally established that wood with a density of less than 400 kg / m ³ and a hardness of less than 150 kgf / m ² suitable for the application of the method, because too little resistance to the introduction of pipes into it and too high coefficient of friction-rolling. Wood with a density of more than 700 kg / m ³ and a hardness of more than 600 kgf / m ² is too hard to carry out the work described, the coefficient of friction-rolling tends to zero, as a result of which the pipes slip relative to the guides.

On the guides 3 stack elements 4 rolling, representing a long metal pipes of the same diameter. They are laid in the same conditional plane (at the same level) on wooden beams to maintain a single horizon, ensuring a uniform distribution of the load from building 1. In contrast to all-metal or wooden rollers, pipes are much lighter, have sufficient strength, are easily welded to increase length. Unlike conventional rollers, rigging trolleys, and wheel sets, long metal pipes overlap the lower part of structure 1 along its entire width, thereby supporting all elements of the lower part of structure 1. For this, each long metal pipe can have a length exceeding the width of the house or pipe shorter lengths can be stacked in pairs overlapping in length with the support of their end parts by guides 3. This arrangement of long metal pipes eliminates the need for a structure under the lower part 5 of structure 1 rigidly th metal or concrete supporting frame, which significantly reduces the cost of production and installation works, reduces the turnaround time is several times and also simplifies safety due to lack of the need for welding and cutting of metal required for the construction of the supporting frame.

The number, length, diameter and wall thickness of the pipes are calculated for the necessary loads. The number of long metal pipes is selected based on the maximum allowable working load on the pipe.

Example

The maximum permissible working load (pressure) on a pipe with a diameter of 57 mm and a wall thickness of 3 mm at the place of its rolling along a wooden rail 150 mm wide is 1000 kg (optimal load is less than 300 kg). In this case, the rail pressure is 66 kgf / cm ² . With a building weight of 10,000 kg, moving along two rails will require a minimum of 5 long metal pipes.

Long metal pipes are laid transversely relative to the longitudinal axes of the guides when moving the structure along the long or short axis of the building and / or at an angle different from the angle of 90 ° to effect rotation or rotation of the structure.

After that, the rolling elements 1 are lowered onto the rolling elements 4. To move the building 1, a pushing or pulling force is applied. The application of force to move the building is carried out using pushing or pulling mechanisms of a manual or mechanical drive - jacks, electric winches, etc. Pipes, when moving the structure, roll along wooden rails with a speed half that of the structure, passing a way that is half as much as the structure.

Before the rise of the building communication - power supply, water supply and drainage, switch to a temporary scheme. This allows you to move buildings without evicting residents.

Moving buildings "downhill" occurs in the horizontal plane. Lowering is carried out at intermediate stages. They also make the move "uphill" with a phased climb on the route.

Claims (9)

1. A method of moving a structure using traction elements using base structures, guides and rolling elements, characterized in that it includes separating the structure from the foundation, raising the structure to a predetermined height, preparing under the lower part of the base structure with leveling the upper surfaces of the base elements, facing the lower part of the structure, in one horizontal plane, the installation on the base of at least two guides made in the form of wooden beams placed in in the direction that coincides with the direction of movement of the structure, laying on the wooden beams of rolling elements made in the form of long metal pipes located at a distance from each other transversely and / or at an angle relative to the longitudinal axes of the guides with the protruding ends of the pipes beyond the width or length of the lower part of the structure and, if necessary, before lowering the structure onto metal pipes, the lower part of the structure is leveled in the same plane with the help of pads. 2. The method according to p. 1, characterized in that the wooden bars are made of wood with a density of 400-700 kg / m ³ and a hardness of 150-600 kgf / cm ² square, rectangular section or in the form of a gun carriage. 3. The method according to p. 1, characterized in that the number of long metal pipes is selected based on the maximum allowable working load on the pipe component of 1000 kg 4. The method according to p. 1, characterized in that the rise of the structure is carried out with jacks, or pneumatic pillows, or wedges, or levers. 5. The method according to p. 1, characterized in that the base is made in the form of sleepers or sleepers, placed on supports. 6. The method according to p. 5, characterized in that as supports for sleepers or sleepers stands use a wooden beam. 7. The method according to p. 5, characterized in that as supports for sleepers or sleepers are used screw piles. 8. The method according to p. 1, characterized in that the movement of the structure is carried out using traction elements made in the form of pushing or pulling mechanisms of a manual or mechanical drive. 9. The method according to p. 1, characterized in that before the rise of the communication structure is switched to a temporary circuit.

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