SU977350A1 - Construction hoist - Google Patents

Description

The invention relates to construction and installation work, namely, to the cable construction hoists, intended for supplying building materials and equipment to the openings of buildings. The hoist can be used both at construction sites and during their repair.

A construction hoist is known, which is installed on the roof of a building, connected by means of a cable block system with a winch installed at the base of the building, while the cable block system has a load-carrying device and is made with the inner and outer branches of the closed rope Cl.

A disadvantage of the known device lies in its low reliability and considerable effort in the rope.

The purpose of the invention is to increase the reliability of the device and reduce the effort in the rope.

The goal is achieved by the fact that the load-carrying device is equipped with a rack and cargo capacity, interconnected by means of hinged four-link and two-link lever mechanisms located at different levels, while the topjHH and lower tops of the four-link mechanism are connected to the inner branch of the closed rope, and on the rack the blocks are located around the outer branch of the rope, while the lower arms of the four-arm are made from the console 1i, which are connected on the one side to the stand and on the other to the cargo carrier her capacity.

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A spring-loaded bracket interacting with the outer branch of the rope is pivotally attached to the stand with a stop also interacting with the specified branch of the rope.

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Fig, 1 shows a diagram of the proposed lift; Fig. 2 shows the structure of a load carrying device, shown in perspective. /

Construction hoist contains

20 a winch 1, having cable-guiding friction trunks and a mechanism for tensioning a closed rope, mounted on the lower receiving platform 2, on which the guides are also located

25, blocks 3 and 4, is spring-loaded and the bearing surface 5 with an engine limit switch, as well as counterweights 6, to prevent the shift of the receiving plate. pads 2 from the tension force of the rope,

30 a load-carrying device 7 with a capacity of 8 for placing a load, an upper guide block 9 mounted on a block with a counterweight 10, which are located on the 1-leaf, a closed rope 11, which is intended to raise and lower the load-carrying device 7, With the help of this rope, namely due to its stocking and change to T, the operation of the load carrying device is controlled. Due to the tension of the rope, the load-carrying device is rocked when the load is lifted, and the tension control is used to ensure the balance of the load-carrying body when lifting the load and for supplying it to the building opening. The most critical part of the elevator is the load-carrying device 7, the design feature of which is determined primarily by providing a horizontal feed d) into the building opening while maintaining the balance of the system by using tension of the closed rope and. force of the body and cargo. The load-carrying device consists of a container 8 for piece or bulk cargo (in the latter case, it is advisable to make the bottom open), which is connected with two pairs of hinged side levers 12 and one pair of central hinge levers 13 with a post 14, for example, T-shaped, having corresponding lugs on the middle part of the pillar is also on the two side brackets 15. At the same time, the connection of the lever 13 with a capacity of 8 is made by means of a protrusion with an internal groove under the lever 1 On the central levers there is a pair of small levers 16, to which closed cable 11 is attached, the side levers are interconnected by means of cable 17, as well as with central levers by means of plates 18. The internal branch of the closed cable connected to the winch is attached to the plates. Thus, the upper big 13 and small 16 central levers form a four-link mechanism (parallelogram), two links of which are made with brackets, to which the load is applied from the same force. For storing the outer branch of a closed rope, which plays the role of a guide during the entire cycle of operation of the elevator, due to the elastic rejection of which the holding is created. The moment against the overturning of the load-carrying device, blocks 19 and 14 are mounted on the rack. 20. Rope stockpiling is carried out following dim. . At the winch drive, the rope is laid in several turns on one of the sets of friction pulleys. In each set of three pulleys and the number of turns of the rope on them is the same. The inner (counting from the building) branch of the rope 11, coming out of the winch, passes through block 4 and is fixed with its ends on the hinge-lever mechanism of the load-carrying device 7. Next, the rope successively bends around the block 9, the guide blocks on the load-carrying device 7, block 3 and goes to the left set of friction pulleys. The block 20 is located on the swivel bracket 21, which is connected to the stand 14 by washing the hinge and the spring 22. The spring 22 operates when the tension in the closed rope decreases, which occurs when the load is fed into the building opening, and the upper position, at which the holding moment from the tension of the outer branch increases, by increasing the wrap angles of the blocks 19 and 20. The bracket 21 also has a stop 23 with a wedge-shaped groove designed to create friction force I.AND. tim rope at the upper position arm 21 is thereby increased holding torque, and can also be manufactured alignment load-carrying device or, alternatively, creating the desired tilt of the cargo tank at the time of unloading the container when taking out the opening 8 in the building of a closed rope movement. Rope lifts works as follows. Before starting work, the winch 1 and the receiving platform 2 are installed in front of the building so that the branches of the closed rope 11 are located vertically and at such a distance from the building so as to prevent the carrying device 7 from touching the wall 8. When the tank 8 is loaded, it is placed on the supporting surface 5 of the receiving platform 2. After that, with the help of a tension winch mechanism operating on the principle of controlling the number of turns on the drive, a certain tension is created in the closed rope, which ensures the maximum folding of the levers 13,16 and 12 load-carrying devices in the direction of the vertical axis. At the same time, the distance between the pillar 14 and the cargo tank-8 is minimal. This ensures that the carrying device is at a safe distance from the building wall when lifting. Then, using the winch pulleys and a closed rope, the load-carrying device is lifted to the required level against the building opening. In this case, at the beginning of the lift, the load-carrying device can be aligned to a horizontal position. This is done by adjusting the tension of the closed rope, in which the elastic repulsion of the external branch, stored in blocks 19, mounted on the rack 14 and on the bracket 21, changes. The amount of moment of pressure on these blocks depends on the amount of torque held.

For example, in the event that the tank 8 is tilted downward, the tension in the closed cable 11 should be increased. In this case, the bracket 21, overcoming the resistance of the spring 22, will take the lower position against the stop on the rack, turning on angle Ы. In this position, the angles of girth of the blocks 19 and 20 by the rope are minimal, but the retention moment increases due to the increase in the pressure of the rope — on these blocks. Thus, for the vertical movement of the load-carrying device, a so-called mounting tension of a closed rope is required, in which the tensioned branches perform the role of tensioned strings, ensuring the equilibrium of the device and the exclusion of its swinging and strikes against the wall of the building. Calculations show that the required mounting tension for equilibrium is relatively small and is equal to one and a half times the lifting capacity of the lift.

When the load is horizontally carried out in the building opening, the tension in the closed cable is dropped to a value that ensures the rope bridging force on the winch drive, and the load-carrying device is suspended only at the upper vertex of the parallelogram formed by the levers 16 and 13. By applying a load to the ends of the levers 13 the parallelogram the force of gravity folds about the horizontal axis, while the capacity of the 8 moves horizontally from the rack on the majesty, approximately equal to the length of the levers 12 and 13.

It should be pointed out that when the mounting tension is removed, the outermost branch of the closed rope 11 remains a tension force of the load carrying device and load, which contributes to the lateral movement of the load carrying device as a whole in the direction of the opening, creating an additional effect.

Due to the connection of the tank 8 with the rack 14 with the help of levers 12 and 1 in different уров-levels, the rack and the tank form a single system with respect to its tilting relative to the suspension point of the load-carrying device (the upper vertex of the parallelogram). In this case, the balance of the load-carrying device depends on the holding

the moment generated by the outer branch, namely from the force of weight of the load and device and the angle of bend of the rope on the guides of the blocks 17 and 18. When the load is fed into the building opening, the bracket 21 under the action of the spring 22 turns to the black position by the angle oLij and the outer branch of the rope is pressed against the stop 23. As a result, the angles of inflection of the rope on blocks 19 and 20 increase and, accordingly, increase

0 the holding moment from the tension of the external branch, as indicated, is equal to the force of the weight of the load and the load-carrying device. Keeping balance in this position contributes

5 is also an increase in the shoulder force of the rack steel, whose length varies from the point of suspension of the load-carrying device, i.e. yt of the top vertex of the parallelogram formed by the levers

0 13 and 16. If it is necessary to align the load-carrying device in a horizontal position, then in this case the cable is pinched in the stop 23. The meaning of this hold 5 is that, with the stop, both branches of the rope are attached to the load-carrying device. Thanks to the fact that the branches of the rope are moving in opposite

0 directions this measure serves to align the load carrying device from the movement of the closed rope in the direction corresponding to the direction of rotation of the load carrying device.

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After unloading the container 8, the load-carrying device maintains horizontal balance, since in this case the force in the closed cable decreases and the values of the holding and

0 tilting moments are approximately equal. In order to return the load-carrying device to the base of the building, tension is created in the closed rope, which is done using a winch winder. In this case, the toggle link system collapses along the vertical axis and cargo tank 8 approaches rack 14. Then, using a winch driving pulley, the load-carrying device is lowered onto the bearing surface 5 of the receiving platform 2, and the motor and drive of the winch are stopped from the action of the limit switch. Lift prepared for

5 regular downloads.

The proposed construction of the lift is simple and reliable in operation and will allow you to effectively and efficiently solve the issue of supplying different types of cargo to the openings of buildings during their construction and repair.

Claims (2)

1. A construction hoist, containing a support installed on the roof of the building, connected by means of a cable block system to a winch installed at the base of the building, the cable block system having a gurney carrying device and made with internal and external branches of a closed rope, characterized in that with a chain increasing the reliability of the device and reducing the effort in the rope, the load-carrying device is equipped with a stand and a cargo capacity connected between the joint with a hinged four-link and two-link lever furs isms located at different levels, with the upper and lower versions of the four-tiered mechanism connected to the inner branch of a closed rope, and on the rack there are blocks bending around the outer branch of the rope, while the HHTR and levers of the four-arm are made with consoles that are connected to one side with a rack, and on the other with a load-carrying capacity. 2. A construction elevator according to claim 1 / characterized in that, for the purpose of adjusting the equilibrium of the load-bearing device, a spring-loaded 1-arm with a stop that also interacts with the specified branch of the rope is hingedly attached to the upright. Sources of information taken into account in the examination 1. Application 2858018 / 29-11, cl. B 66 B 9/18, 25.12.79. f ii .2