RU137025U1 - CRANE SUPPORT - Google Patents

Abstract

1. The support of the crane, consisting of three rods, one ends of which are attached to the enclosing frame of the crane, characterized in that each rod is connected to the enclosing frame through the transition link by a swivel joint, wherein the swivel joint between the enclosing frame and the transition link is made in a horizontal plane, and the swivel connection between the transition link and the thrust is made in a vertical plane, with each thrust at the other end is additionally equipped with a hinged three-link located in a vertical plane, and each the linker additionally has an upper and lower foundation elements and a horizontal element that is a binder between the three link and the lower foundation element, all joints being hinged, and the upper end of the upper foundation element and the lower end of the lower foundation element respectively connected to the upper and lower floors. . The crane support according to claim 1, characterized in that the rod consists of one element. The crane support according to claim 1, characterized in that the thrust consists of several elements. The crane support according to claim 1, characterized in that each link of the three linker consists of one element. The crane support according to claim 1, characterized in that each link of the three link chain consists of several elements. The crane support according to claim 1, characterized in that the articulated joints: rods with a three link, a three link with an upper foundation element and a horizontal element, and a horizontal element with a lower foundation element are made in a vertical plane. The crane support according to claim 1, characterized in that the connection of the upper end of the upper foundation

Description

The proposed utility model relates to devices for cranes for working at successively rising levels with supporting elements on the walls of buildings and structures.

Known patent for the invention of the Russian Federation No. 650961, IPC B66B 9/187, B66C 23/20, "Device for attaching an attached tower crane to the structure under construction." A device for attaching an attached tower crane to the structure under construction, contains a longitudinal beam attached to the building, adjustable in length of the rod, some ends of which are connected with the tower of the crane, and the other with a longitudinal beam, while the device contains vertical racks, longitudinal and transverse trusses, consisting from the upper and lower connecting elements, the lower connecting elements being connected with the upper and vertical trusses with vertical posts to which the longitudinal beam is attached.

The disadvantage of this technical solution is that with this method there are loads on the floors that are not acceptable for most floors, and the dimensions of the proposed device will create a problem with its placement inside the structure in many cases.

Closest to the claimed utility model is the RF patent for the invention No. 450771, IPC B66C 23/28, B66C 23/20 "Device for attaching a self-mounted attached tower crane to the building under construction." A device for attaching a self-mounted attached tower crane to an erected building, comprising a longitudinal beam attached to the building structure, rods, some ends of which are attached to the crane tower, and others to the longitudinal beam, where the longitudinal beam and rods are made of adjustable length, and the beam is mounted by means of adjusting stops. Adjustable rods are made in the form of rods equipped with threaded ties. The beam, adjustable in length, is detachable with interchangeable intermediate elements.

The disadvantage of this technical solution is the difficulty of calculating the strength of the longitudinal beams installed in the building to which the crane is fastened, as well as the single use of the device.

The objective of the proposed utility model is to create a reusable device, the use of which will not depend on the design features of the structure to which the crane is attached.

The problem is solved due to the fact that the crane support consists of three rods, one ends of which are attached to the enclosing frame of the crane, through the transition link with a swivel joint, and the swivel joint between the enclosing frame and the transition link is made in the horizontal plane, and the swivel joint between the transition link and the thrust is made in a vertical plane, with each thrust at the other end is additionally equipped with a hinged three-link located in a vertical plane, and each three-link is additionally has an upper and lower foundation elements and a horizontal element that is a binder between the three link and the lower foundation element, all joints being hinged, and the upper end of the upper foundation element and the lower end of the lower foundation element are connected to the upper and lower floors of the structure, respectively, and are made in the horizontal plane. A thrust may consist of one or more elements. Each link of the three link may consist of one or more elements. Swivel joints: traction with a three link; a three link with an upper foundation element and a horizontal element; and a horizontal element with a lower foundation element is made in a vertical plane.

The essence of the utility model is illustrated by drawings:

FIG. 1. - General view of the crane with a support and structural elements.

FIG. 2 - Top view of the crane support connected to the enclosing frame of the crane.

FIG. 3 - Side view of a crane support connected to a female crane frame.

FIG. 4 - A fragment of the connection of the enclosing frame with traction through the transition link.

FIG. 5 - A fragment of the connection of the thrust with the three link, the three link with the upper foundation element and the horizontal element and the horizontal element with the lower foundation element.

The support 1 of the crane 2, containing the enclosing frame 3 for attaching the support 1, consists of three transition links 4 connecting each of the three rods 5 with the enclosing frame 3, three three link 6, three upper foundation elements 7, three horizontal elements 8 and three lower foundation elements 9 (one for each rod 5). (see Fig. 1, 2, 3)

The connection of the enclosing frame 3 with the transition element 4 and the connection of the transition element 4 with the rod 5 are made by swivel joints 10, and the connection between the enclosing frame 3 and the transition element 4 is made by articulation in the horizontal plane 11, and the connection between the transition element 3 and the rod 5 is made by articulation the connection in the vertical plane 12. The rod 5 may consist of one or more elements of the rod 13. (see Fig. 3, 4)

At the end opposite the end of the connection with the transition link 4, each rod 5 is additionally equipped with a hinged three link 6 located in a vertical plane. Each link of the three link 14 may consist of one or more elements of the link 15. (see Fig. 1, 3, 5)

Each three link 6 is connected to the upper foundation element 7 from above and the horizontal element 8 from below, and the horizontal element 8, in turn, is connected to the lower foundation element 9, and these connections are made by hinge 10 located in the vertical plane 12. (see Fig. 3, 5)

The upper end of the upper foundation element 7 and the lower end of the lower foundation element 9 are attached to the upper floor 16 and the lower floor 17 of the structure 18, respectively, and are made by bolted joints 19 located in the horizontal plane (see Fig. 1, 3, 5)

Assembly-disassembly of the support 1 of the crane 2 can occur in several ways, depending on the various conditions of the state of the crane 2 and the availability of technical equipment for installers, for example, as follows:

1. Assemble the device on the ground. Rod 5, consisting of several elements 13 with the possibility of adjusting the length so far without adjustment.

2. Raise the whole device with a crane 2 and connect it with a finger to the enclosing frame 3 of the crane 2, install inside the structure so that all elements of the device, indicated as horizontal, are horizontal, and the upper foundation elements 7 and the lower foundation elements 9 fit snugly against the corresponding surfaces of the floors 16 , 17 of the structure 18 (the screws set the desired length of the length-adjustable links, not shown in Fig.).

3. The crane 2 is installed in a strictly vertical position within the limits specified by the instruction of the crane 2 tolerances.

4. Mark (mark) on floors 16, 17 of structure 18 the places where holes must be made in the floors to connect, for example, by bolting 19 to the upper foundation element 7 and the lower foundation element 9.

5. The mounted device is pushed to the side, and holes are made in the marked places in the floors 16, 17 (not shown in Fig.).

6. The device is put in place and attached to the floors 16, 17 by means of friction from the bolt connection 19, the studs of which pass through the holes made in the floors 16, 17 of the structure 18.

So all three rods 5 are fastened as a part of the support 1.

Dismantling:

Knock out the fingers connecting the links of the articulated three link 6. Disassemble into components. The finger connecting the rod 5 with the enclosing frame 3 of the crane 2 is knocked out. The rod 5 is removed by means of a crane or an additional winch (not shown in Fig.).

The device operates as follows:

1. The assembled device is fixed to the enclosing frame 3 of the crane 2, which is equipped with the crane 2 itself.

2. Mount the upper foundation element 7 and the lower foundation element 9 to the elements of the building structure 18.

3. After that, the loads from the crane 2 are transmitted through three rods 5 to the corresponding systems of articulated three-link 6, through which are transferred further to the elements of the building structure 18.

The advantages of the claimed device are as follows:

1. Repeated use of the device, which is possible thanks to collapsible finger-bolt connection.

2. The attachment point to the structure 18 can be set in accordance with the design features of the structure 18.

3. The place of attachment to the structure 18 can be selected based on the convenience of the work performed inside the structure 18.

4. Assembly of the device can be carried out previously, at the place of manufacture, and not at the place of use.

5. The device has less weight in comparison with analogues, therefore it is convenient for transportation.

6. The speed of attachment of the device to the crane 2 and the supporting structure 18 is at least two times faster compared to peers.

7. The production of structures and parts of the device can save metal consumption.

The proposed device is made of metal structures and parts with the possibility of its multiple assembly and disassembly, as necessary, transfer the device or to replace worn parts.

The inventive support 1 of the crane 2 is used for embedding in the technological process of building high-rise structures 18, namely, to keep the tower crane 2 in an upright position by attaching to the building 18. The height of the crane 2 can reach 250 meters, and the amplitude of the installation of supports 1 from 40 to 70 meters. The magnitude of the connection angles of the structural elements of the support may be different and depends on the characteristics of each individual object.

All of the above indicates the fulfillment of the technical task, namely: the creation of a reusable device, the use of which will not depend on the design features of the structure to which the crane is attached, as well as on the industrial applicability of the claimed device.

The list of positions:

1. Prop

2. Crane

3. Cover frame

4. Link transition

5. Thrust

6. Three link

7. Upper foundation element

8. The horizontal element

9. Lower foundation element

10. Swivel

11. Swivel in the horizontal plane

12. Swivel in the vertical plane

13. Traction element

14. The link of the three link

15. The element of the link three-link

16. Top floor

17. Lower floor

18. Construction

19. Bolted connection

Claims (7)

1. The support of the crane, consisting of three rods, one ends of which are attached to the enclosing frame of the crane, characterized in that each rod is connected to the enclosing frame through the transition link by a swivel joint, wherein the swivel joint between the enclosing frame and the transition link is made in a horizontal plane, and the swivel connection between the transition link and the thrust is made in a vertical plane, with each thrust at the other end is additionally equipped with a hinged three-link located in a vertical plane, and each The linker additionally has upper and lower foundation elements and a horizontal element, which is the link between the three linker and the lower foundation element, all connections are hinged, and the upper end of the upper foundation element and the lower end of the lower foundation element are connected to the upper and lower floors of the structure, respectively. 2. The crane support according to claim 1, characterized in that the rod consists of one element. 3. The crane support according to claim 1, characterized in that the thrust consists of several elements. 4. The crane support according to claim 1, characterized in that each link of the three linker consists of one element. 5. The crane support according to claim 1, characterized in that each link of the three linker consists of several elements. 6. The crane support according to claim 1, characterized in that the swivel joints: rods with a three link, a three link with an upper foundation element and a horizontal element, and a horizontal element with a lower foundation element are made in a vertical plane. 7. The crane support according to claim 1, characterized in that the connections of the upper end of the upper foundation element with the upper floor and the lower end of the lower foundation element with the lower floor of the structure are respectively made in the horizontal plane.

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