RU2322558C2 - Rotary hoisting device base - Google Patents

Abstract

FIELD: hoisting equipment to lift buildings or other heavy objects, for instance monuments.

SUBSTANCE: hoisting device base has scaffold of telescopic tubular members fixed substantially in vertical and/or horizontal position and may be mutually displaced and secured with each other. The base has post carrying at least one of said telescopic tubular scaffold members. Base is of rotary type. The post is rotary connected to rotary plate fixed to chassis frame. At least one wheel is connected to the chassis frame. Axis of substantially vertical telescopic tubular member passing through rotary plate center is substantially transversal to axis of wheel rotation. Rotary plate is associated with device for rotary plate rotation relatively support. Said device is secured to telescopic tubular member post.

EFFECT: possibility of structure transportation without hoisting device demounting, possibility to rotate hoisting device relatively lifted structure.

8 cl, 9 dwg

Description

FIELD OF THE INVENTION

The present invention relates to improvements in a lifting device for lifting buildings or other heavy objects or structures.

State of the art

From patent application NO 19984334 known lifting device designed for the restoration of buildings. Such a lifting device comprises hollow square profiles that can be telescopically mounted one in another and locked in a selected position by means of fixing bolts passed through aligned holes in the hollow profiles. One or several platforms are connected with hollow profiles, which can be fixed at the required height and on which lifting devices can be placed to lift parts of the structure attached to the lifting devices.

Such a lifting device has certain weaknesses and shortcomings, which creates the need for its improvement.

First, it is preferable to provide a movable base for the lifting device. When carrying out restoration work on buildings, moving monuments, and transporting heavy objects such as buildings and other structures, it is advisable to be able to transport this structure or object without having to dismantle the lifting device or carry out repairs or rebuilding of the structure until it can be moved. Circumstances are also possible when it is more convenient to repair or restore a structure or object in another place, and not at its direct location.

In connection with the transportation, as well as the movement of the lifting device relative to the location of the structure, structure or object, it is advisable to provide the ability to rotate the base of the lifting device relative to the object or structure after its lifting.

Given the large mass of objects for which the lifting system is designed, the rotation of the construction of the lifting device is in principle difficult to implement, and in addition, it is difficult to ensure the controllability and safety of such rotation without an appropriate tool.

Disclosure of invention

According to the invention, a transportation and rotation system is proposed for use in conjunction with the described lifting device, which can be placed either anywhere inside the scaffold structure of the lifting device, or as the base of the scaffold structure so that wheels can be mounted on this base for transporting the lifting device and, in addition, an object or structure mounted on a lifting device.

More specifically, in a first aspect, the invention relates to a rotatable base of a lifting device for heavy objects, such as buildings or monuments, comprising scaffolds of telescopic tubular elements held essentially vertical and / or horizontal and mutually biased and mutually fixed. Distinctive features of the base is that it contains a support bearing at least one tubular element of the scaffolds and mounted with the possibility of rotation on a rotary plate rigidly attached to the chassis frame, designed for at least one wheel, and the axis of the tubular element passing through the center the rotary plate is oriented essentially perpendicular to the axis of rotation of the wheel, and the rotary plate is connected with devices for rotating the rotary plate relative to the support.

In a preferred embodiment, the support has a square cross section for receiving square telescopic tubular elements of the scaffolds of the lifting device. Devices for rotating the turntable relative to the support may include at least one pivoting lever.

In a further preferred embodiment, the movement of the lever or swing levers is defined by at least one hydraulic or pneumatic cylinder.

In another embodiment of the rotary base of the device for the relative rotation of the rotary plate contain a worm gear acting on the rotary plate. The worm gear can be driven by an electric motor.

In a most preferred embodiment, a lifting stand is attached to the support and / or chassis frame, passing inside the support and / or chassis frame and connected to a lifting device such as a jack or pneumatic cylinder or hydraulic cylinder, passing inside the scaffolds of tubular elements, said lifting device being attached to tubular scaffold elements by means of a transverse bolt.

In a second aspect, the invention relates to the use of the rotatable base described above for moving heavy objects, such as structures such as buildings or monuments, captured and raised by means of a lifting device containing scaffolds of square telescopic tubular elements.

Brief Description of the Drawings

Next, with reference to the accompanying drawings will be described in detail examples of the invention. In the drawings:

figure 1 depicts in perspective a rotary system according to the invention with mounted scaffolds of the lifting device,

figure 2 depicts the rotary system of figure 1 in side view,

figure 3 depicts a support rotary system in an alternative embodiment, providing a rotation of the scaffolds 360 °,

4 shows a lifting system inside a lifting device in an alternative embodiment in which jamming is eliminated,

5 depicts a lifting system inside a lifting device in an alternative embodiment in which jamming is eliminated,

6 depicts a fixing bolt for telescopic elements of the lifting device,

Fig. 7 shows an alternative embodiment of a double-sided fixing bolt for telescopic elements of a lifting device,

Fig.8 depicts the location of the parts of the lifting device when lifting a wooden wall,

Fig.9 depicts a console with friction rollers for beams or trusses used in the scaffolds of the lifting device.

The implementation of the invention

1 shows a scaffold or scaffold 1 of a lifting device comprising pipes 2 with a plurality of bolt holes 3. The pipes 2 can have a cross section of any shape, preferably a square section, as this prevents the pipes from twisting in the scaffolds. Pipes 2 telescopically enter each other, that is, they have different cross-sectional areas and can span one another. Mutual fixation of the pipes can be carried out by bolts inserted into holes 3 (not shown). If the pipes 2 have a circular cross section, relative twisting of the pipes can be prevented by passing the bolts through the holes 3.

The pipes 2 of the scaffolds are installed in the metal support 4, supporting the scaffold 1. The fixing of the pipe 2 of the scaffolds in the support 4 can be carried out either by covering the cross section of the pipe, for example, square, or by means of bolts passing through the holes 3. In this case, the support 4 should also be provided with appropriate fixing holes.

The support 4 rests on its lower side on the rotary plate 5. The rotation of the rotary plate 5 can be carried out in any way, for example, using the rotation lever 6 or by means of an electric motor 7 acting on the rotary plate 5 (see figure 3). When using the electric motor 7, the rotary movement can be transmitted through a worm gear 8, acting on the rotary plate 5.

Alternatively, the movement of the rotation lever 6 may be defined by a hydraulic or pneumatic cylinder 9, which is attached to the support 4 and the rod 10 passing between the other end of the cylinder 9 and the rotation lever 6. By means of the cylinder 9, the rod 10 can have an effect for adjusting the angle of rotation between the rotation lever 6 and the support 4. The rotary plate 5 is attached to the chassis frame 11 connected to one or more wheels 12.

In order to avoid jamming of the telescopic parts of the lifting device, it is preferable that the hydraulic, pneumatic or mechanical lifting devices, for example jacks or hydraulic cylinders, have a force point moving along the internal axis of symmetry of the pipes 2, or a force point in the center of the polygon formed by the cross section pipes 2 in the case when the pipes 2 have an asymmetric cross section. Due to this, the pipe 2 of the lifting device can be raised without any inclination. This is especially important when you need to raise or raise a tall structure, such as a tall structure, where you should avoid the slightest slopes in the system.

An internal lifting system extending from a lower swing frame according to the invention is shown in FIG. The internal lifting strut 13 is attached to the internal lifting device 14 in the form of a hydraulic cylinder and mounted at the base of the chassis frame 11. This internal lifting strut 13 is attached to the base of the chassis frame 11, and the pipe 2 of the lifting device surrounds the lifting strut 13. On the lifting device 14 in the form a hydraulic cylinder located on top of the lifting strut has a head 15 that can be adjusted to fit flush with the holes 3 in the pipes of the lifting device, so that through These holes may be missed locking pin or bolt 16.

Alternative exemplary embodiments of the internal lifting system are shown in FIGS. 4 and 5. Here, the lifting device 14 in the form of a hydraulic cylinder is located between two telescopic columns 17 spanning the lifting system. The lifting tubes 2 of the lifting device equipped with such a lifting system are preferably located in the center of the lifting system so that the point of application of force is on a straight line coinciding with the axis of symmetry of the system. Such a lifting system can be located in the lifting device in any suitable place and can also be located on the swing frame of the chassis (base) according to the invention.

Figure 5 shows an alternative lifting system also comprising an open lifting device (hydraulic, pneumatic or mechanical cylinder or jack). Here, the lifting device 14 is located between two tubular posts 2, 2 'and is attached to these tubular posts by two intermediate sections 18, 18'. The intermediate sections 18, 18 'and the tubular posts 2, 2' can be attached to each other using interacting holes 3 for fixing and fixing bolts. Such a lifting system according to FIG. 5 can be installed anywhere on the lifting device or connected to a rotary chassis frame (base) according to the invention.

As for the mutual fastening of the telescopic parts in the lifting device, as well as in the rotary chassis frame (base) according to the invention, in order to reduce the complexity, it is advisable to use a fixing bolt 19 of a special design, shown in Fig.6. This fixing bolt comprises a pipe 20 with a female thread. A socket 21 is made at each end of the tube 20, deep enough to accommodate the head of the countersunk screw 22. The threaded part of the countersunk screw 22 is screwed into the internal thread in the tube 20. Such a tube 20 with a countersunk screw can be tightly inserted into the telescopic lifting tubes 2. The top the surface of the head of the connecting screw when it is fully screwed into the thread of the tube 20 is parallel or deepened relative to the outer surface of the inner telescopic tube 23. When the outer telescopic tube 24 is installed piled with alignment of the hole relative to the head of countersunk screw 22, it can be screwed out to fix the outer telescopic tube 24 relative to the inner telescopic tube 23.

Preferably, the countersunk screw 22 is made with a shoulder 25, the size of which exceeds the size of the holes 3 in the outer telescopic tube 24, so that it is impossible to unscrew the screw 22 from the socket in the tube 20.

FIG. 7 shows a two-way fixing bolt corresponding to the bolt of FIG. 6.

Fig. 8 depicts a lifting device suitable for use with the pivoting chassis frame (base) of the invention. The lifting device contains points I, II, III of lifting, each of which can be displaced along the height of the lifting pipes 2, 2 '. Such a lifting device system can be height-adjusted in a desired manner using telescopic tubular elements. The lifting points I, II, III are connected to the wooden wall 26, which is lifted from the foundation at the lower point I. After the wall is raised to the position of FIG. support 4 of the rotary base. Due to this, it is possible to transport the captured wall as a whole using the rotary base according to the invention.

When lifting and installing beams or couplers in the scaffolds of the lifting device, it is advisable to ensure their braking or stopping when lowering upon reaching the corresponding holes 3 between the parts of the scaffolds for installing the fixing bolts. Such braking or stopping the lowering of the beams or screeds can be carried out using the single-acting lifting control device shown in Fig. 9. The lifting control device comprises a pipe 27 covering the pipes 2, 2 'of the scaffolds and moving along them. Holes 28 are made in the outer movable pipe 27, which can be aligned with the holes 3 in the pipes 2, 2 'and through which the fixing bolts can be passed. A plate 29 is located on the side surface of the pipe 27, slightly protruding beyond the edges of the pipe 27. This plate 29 contains holding means 30 in the form of guides for beams or ties. On the outer movable pipe 27, in its lower part, from the side of the plate 29, a friction roller 31 is installed, which inhibits the movement of the outer pipe due to the fact that it protrudes through the slot in the pipe 27 and is in contact with the pipes 2, 2 'of the scaffolds. Diagonally opposite the friction roller 31, a second friction roller 32 is preferably mounted, which also protrudes through a window in the pipe 27 and is in contact with the pipes 2, 2 ′. When installing the pipe 27 in such a way that the friction roller 31 is located under the beam or screed, a downward moment M of forces is created from the weight L of the beam or screed. This moment M presses the friction roller 31 against the inner tube 2, 2 ', so that the movement of the beam or screed can be slowed down, which simplifies the insertion of bolts into the holes 3, 28.

A swivel base for a lifting device according to the invention is described with reference to a specific example of the implementation of pipes and lifting devices. However, one skilled in the art will recognize that the elements of the system of the invention can be replaced by other equivalent elements within the scope of the invention. An example of such an equivalent replacement is a variant in which the rotation levers 6 are rigidly connected to the support 4, and the swivel base or chassis frame for the wheel or wheels 12 can be rotated relative to this rigid structure. Of course, in this case, a cylinder 9 must be provided for relative rotation between the chassis frame 11 and the support 4 with the rotation levers 6. A suitable equivalent solution may be provided for the turntable 5 and the worm gear 8.

Claims (8)

1. The base of the lifting device for heavy objects, such as buildings or monuments, containing scaffolds (1) of telescopic tubular elements (2, 2 '), held essentially vertical and / or horizontal and made with the possibility of mutual displacement and mutual fixation wherein said base comprises a support (4) supporting at least one of the telescopic tubular elements (2) of the scaffolds (1), characterized in that the base is rotatable, said support being fixed with a carrier the possibility of rotation on the rotary plate (5), rigidly attached to the chassis frame (11), designed for at least one wheel (12), while the axis of the essentially vertical telescopic tubular element (2) passing through the center of the rotary plate ( 5) is oriented essentially perpendicular to the axis of rotation of the wheel (12), and the pivot plate (5) is connected to a device for pivoting the pivot plate (5) relative to the support (4), which is attached to the support (4) for telescopic tubular elements (2) . 2. The base according to claim 1, characterized in that the support (4) has a square cross section for receiving telescopic tubular elements (2, 2 ') having a square cross section of the scaffolds (1) of the lifting device. 3. The base according to claim 1, characterized in that the device for rotating the rotary plate (5) relative to the support (4) contains at least one rotation lever. 4. The base according to claim 3, characterized in that the movement of the rotation lever or levers (6) is defined by at least one hydraulic or pneumatic cylinder (9). 5. The base according to claim 1, characterized in that the device for the relative rotation of the rotary plate (5) contains a worm gear (8) acting on the rotary plate (5). 6. The base according to claim 5, characterized in that the worm gear (8) is driven by an electric motor (7). 7. The base according to any one of claims 1 to 6, characterized in that a lifting stand (13) is attached to the support (4) and / or chassis frame (11), passing inside the support (4) and / or chassis frame (11) and connected to a lifting device such as a jack or pneumatic cylinder or hydraulic cylinder (14) passing inside the scaffolds (1) from tubular elements (2, 2 ′), said lifting device being attached to the tubular elements (2, 2 ′) of the scaffolds (1 ) by means of the cross bolt (16). 8. The use of the base, as claimed in any one of claims 1 to 7, for moving heavy objects, such as structures such as buildings or monuments, raised by means of a lifting device containing scaffolds of telescopic tubular elements (2, 2 ') having a square cross section .

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