SU1323513A1 - Device for preventing excessive lift of hoisting vessel - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to mining and improves the reliability of braking of a lifting vessel of a mine installation. The device includes levers 1 with spring shock absorbers, 2 barrels fastened on the reinforcement of the barrel 2. Levers 1 are connected to reinforcement 2 with their upper part. In the lower part of the levers 1 mounted spring shock absorbers, including prusL

Description

Compressors 5 and screw devices 6. Along the levers 1, wedge 9 wedges in cross section are fixed. The lift vessel 7 is provided with cams 8, which move along the guides 9. When the vessel 7 is moved, the force of compression of the springs 5 remains constant, and the force exerted by the levers 1 on the vessel 7 increases. Meng leverage profile 1, you can get any law of change

one

The invention relates to mining and can be used in mining enterprises with an underground method of development in the equipment of mine rigs in cases of emergency re-lifting of the vessel of the mine hoist installation.

The purpose of the invention is to improve the reliability of braking.

Figure 1 shows a diagram of the proposed device; Fig. 2 shows the profile of the guide levers.

The device contains at least two vertical levers 1, hingedly mounted on the elements of the armirovka 2 of the shaft shaft. The levers are mounted rotatably at an angle ft relative to the hinges 3. The levers 1 are made with a lead-in part 4. The shock absorbers are installed in the lead-in part of the levers and include compression springs 5 and screw devices 6. The elevator vessel 7 is equipped with brake cams 8. On the side facing On the loan, the levers are provided with guides 9, and have a wedge shape with an angle S.

In the event of an emergency, i.e. when re-raising vessel 7, the device works as follows.

When the vessel-7 of the site lift passes through, the brake cams of the vessel smoothly enter the wedge levers 1, since the magnitude of the frictional forces is minimal. The levers 1 rotate relative to the axis of the hinges 3 by an angle P). Thus, at the entrance of the vessel 7 lifts on

frictional forces in the function of vessel movement 7. For guides 9 when fists 8 are located at the end of section b, friction forces reach the maximum value, which prevents the vessel 7 from moving backwards. To release vessel 7 by device 6, the compression of springs 5 is reduced to zero. 7 and again brings the deformation of the springs 5 to a predetermined value. 2 Il.

the area and the magnitude of the forces of friction, due to the pressure of the springs on the levers, is minimal. This value is determined by the preliminary compression of the springs by the screw device 6. At this time, the compression springs 5 are deformed and at the end of the section a and the deformation reaches a certain value F. With further upward movement of the vessel 7 of the elevator

its brake cams 8 transfer to the area b of the levers 1. From the moment of entering the section b, the rotation of the levers 1 relative to the axis of the hinges 3 ends, the deformation of the springs ceases. When the vessel 7 of the ram moves along the section b, the force of compression of the springs 5 remains constant, and the force of the action of the levers on the vessel 7 of the raiser increases.

the end of the segment b the magnitude of the friction force is maximum. The magnitude of the friction forces between the brake cams 8 of the vessel 7 of the lift and the levers 1 with the wedge guides 9 is inversely proportional to the distance from the axis of the hinges 3 to the moment of the brake cams 8 in the levers 1. You can get almost any law of force change

friction in the function of moving the vessel 7 of the elevator.

For wedge-shaped 9 levers 1 when brake knuckles 8 are located at the end of segment b, friction force

reach a maximum value, which prevents the vessel 7 to move backward.

To release the clamped vessel 7 of the lift from the levers 1 screw mouth

With the device 6, the deformation of the compression springs 5 is reduced to zero. Next, the vessel 7 of the hoist 7 is removed from the levers 1 and the screw device again brings the preliminary deformation of the compression springs 5 to the desired value. Having 2-3 sizes of levers 1 with springs 5 of different stiffness, it is possible to get a wide range of device sizes with a large range of energy absorbing capacity, providing braking of any practically occurring vessels of multi - channel lifts and moving at any speed.

Claims (1)

Apparatus of the Invention A device for preventing the lifting of a lifting vessel, which includes levers fixed with a hinge on the barrel reinforcement with spring shock absorbers, characterized in that, in order to increase the braking reliability, the levers are connected to the reinforcement with their upper part, and spring dampers are installed in the lower part of the levers, the device is equipped with wedge guides in cross-section of the form fixed along the levers, and the lifting vessel is equipped with fists mounted for movement along the guides. Editor M.Petrova Compiled by L. Cherepenkin Tehred I.Popovich Proofreader V. But ha. Order 2927/27 Circulation 720 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, st. Project, 4 FIG. 2