RU216806U1 - Attached tower crane - Google Patents

Abstract

The utility model relates to tower cranes.

Attached tower crane, which includes a fixed support 1, a tower 3, an arrow 4, a lifting mechanism - a hoist 7, a swivel arm 13 and two rods - turnbuckles 9 connecting the tower 3 through the supporting sleeve 17 with the building 2 through the bracket 18, with one turnbuckle 9 is located perpendicular to the building, and the second lanyard 9 is parallel. The tower 3 is made in the form of a pipe, in the lower part of which there is a vertical axis 10, which is included in the saddle 11, which is pivotally connected to the fixed support 1 by means of a horizontal axis 12. tensioner 20. The free end of the swing arm 13 can be pivotally connected to the control rod 15. 1 c.p. f-ly, 3 ill.

Description

The utility model relates to tower cranes.

Known tower crane, which includes support, tower, boom, hoisting mechanism and swivel mechanism. (https://studfile.net/preview/3934874/page:29/)

The disadvantage of this tower crane is the complexity of the design and high cost.

The closest is the tower crane attached patent of the Russian Federation No. 118289 (https://yandex.ru/patents/doc/RU2118289C1_19980827), which includes a fixed support located on the surface of the construction site near the building under construction, a tower, an arrow, a lifting mechanism, a swivel mechanism and two rods with hinges at the ends connecting the tower to the building.

The disadvantage of this tower crane is also the complexity of the design and high cost.

The purpose of this utility model is to simplify and reduce the cost of the crane design for its use on small construction sites.

This goal is achieved by the fact that the tower is made in the form of a pipe. The rods are made in the form of a lanyard, at one end pivotally connected to the tower through a supporting assembly, and at the other ends pivotally connected to a horizontal bracket fixed on the wall of the building being erected, with one lanyard located perpendicular to the building, and the second lanyard in parallel. Tower in the lower part has a vertical axis pivotally connected to the saddle, which is pivotally connected to a fixed support through a horizontal axis. The slew mechanism is a swivel arm with a yoke attached to the turret. The rear console of the boom is connected to the tower above the supporting unit by a cable guy with a tensioner. The free end of the swing arm can be pivotally connected to the control rod.

On FIG. 1 shows a side view of the proposed crane, Fig. 2 - horizontal section A-A in the place of the supporting node with rods, in Fig. 3 - horizontal section B-B in a place above the mounting of the swing arm on the tower.

Attached tower crane (Fig. 1, 2, 3) includes a support 1 located on the surface of the construction site near the building 2 under construction, a tower 3, an arrow 4 with front 5 and rear 6 consoles, a lifting mechanism, which is a hoist 7, fixed on the front console 5 of the boom 4, a rotary mechanism 8 and two rods 9. The tower 3 in the lower part has a vertical axis 10 included in the saddle 11, which is pivotally connected to a fixed support 1 through a horizontal axis 12. The rotary mechanism 8 is a rotary lever 13 with a clamp 14 fixed on the tower 3. For ease of control of the rotary mechanism to the free end of the rotary lever 13, the control rod 15 can be pivotally connected to the control panel 16 of the hoist 7. The rods 9 are turnbuckles, at one end pivotally connected to the supporting clutch 17, consisting of two halves, covering the tower 3, and the second ends are pivotally connected to the horizontal bracket 18, fixed m on the wall of the building being erected 2. Moreover, one lanyard 9 is located perpendicular to the wall of the building, and the second lanyard 9 is located in parallel. To prevent the tower from bending, a cable guy 19 is used, which is a cable connected at one end to the rear console 6 of the boom 4, and at the other end connected to the tower above the supporting node 17 through the tensioner 20.

The tower crane works as follows. In a place convenient for work, a horizontal bracket 18 with turnbuckles 9 and a supporting sleeve 17 is attached to the wall. A support 1 with a saddle 11 is installed on the surface of the construction site under the supporting sleeve 17. Then the tower is assembled in a horizontal position, it can consist of two parts. An arrow 4 with a hoist 7 is attached to the upper part of the tower. The rear console 6 of the boom 4 and the tower 3 are connected by a cable guy 19 to the tensioner 20, and the cable is tensioned to prevent the tower from bending under the weight of the loads. A rotary lever 13 with a control rod 15 and a control panel 16 of the hoist are attached to the tower 3. The assembled structure - the tower with the boom is brought to the support 1. The vertical axis 10 of the tower 3 is inserted into the saddle 11. The upper part of the tower with the boom is raised, while the entire structure rotates around the horizontal axis 12 and rises to a vertical position, the tower enters one half of the supporting sleeve 17, connect the second half of the coupling and bolt it together. Then, using the turnbuckle 9, the exact vertical position of the tower 3 is set along the vertical level. The rotary lever 13 with the control rod 15 is mounted on the tower 3 in a place convenient for work: either in the lower section - when controlled from the site, or in the upper section - when controlled from scaffolding. Moreover, as the wall of the building being erected rises, the rotary lever 13 with the clamp 14 is raised higher up the tower. In operation, the tower 2 with the boom is turned manually by means of the control rod 15 and the rotary lever 13. The loads are raised and lowered by means of the hoist 7 controlled by the remote control 16 located at the end of the control rod 15.

The proposed technical solution can be widely used in the construction of small construction projects, for example, in the construction of two-story individual residential buildings. It is possible to supply building materials: aerated concrete blocks, bricks, mortar, boards, both on scaffolding and in a window opening, for this, a crane is installed in advance next to the window opening. You can also feed boards and roofing material to the roof of the house.

Claims (2)

1. Attached tower crane, which includes a fixed support located on the surface of the construction site near the building under construction, a tower, an arrow with front and rear consoles, a lifting mechanism, a swivel mechanism and two rods with hinges at the ends connecting the tower with the building, characterized in that that the tower is made in the form of a pipe, the rods are made in the form of a lanyard, at one end pivotally connected to the tower through a supporting coupling, and at the other ends pivotally connected to a horizontal bracket fixed on the wall of the building being erected, with one lanyard located perpendicular to the building, and the second lanyard - in parallel, the tower in the lower part has a vertical axis pivotally connected to the saddle, which is pivotally connected to the fixed support by means of a horizontal axis, and the swivel mechanism is a swing arm with a collar fixed on the tower, in addition, the rear boom console is connected to the tower above supporting clutch with a cable brace with tension resident. 2. Attached tower crane according to claim 1, characterized in that the free end of the swivel arm is pivotally connected to the control rod.

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