UA30836U - Appliance vegor for check of mine lift equipment - Google Patents

Abstract

Appliance for check of lift equipment of mines includes base of body on which one installs beam with indication of vertical, horizontal and micrometric measurement of angles of deflection and inclination. Beam is connected with possibility of motion to body in two points and it is brought to vertical and horizontal positions by means of indicators.

Description

Description of the invention

The proposed useful model refers to the field of mining, namely: to the creation of devices for 2 measurement of vertical and inclined deviations of reinforcement elements and ropes from the design position.

In mining according to the "Safety Rules" |1| and "Rules of technical operation" (21 controlled parameters of the mine's lifting equipment are checked based on the results of surveying of the IZ). At the same time, surveying works in over-mine structures and shafts are carried out in difficult conditions: the presence of a high speed air jet with foggy plugs of gas and dust; increased water inflow; 70 weak lighting; strong magnetic field and vibrations. For this reason, existing laser, optical, and electronic devices have not found practical use during measurements in vertical shafts. The main devices and devices for control of vertical directions remain towers, both at small and at great depths of shafts.

At present, the angles of deviation of the lifting ropes from the vertical position are found based on the results of 12 surveying surveys of the ropes at the lower and upper positions of the lifting vessel in the trunk and copra and the distance from the axis of the copra pulley shaft to the measurement horizon on the copra firing tier (4). This method is based on the assumption that when the vessel is in the lower position, the rope in the trunk and copra is practically vertical.

The disadvantage of the method is the low reliability of the measurements, the improbability of determining the angle of deviation of the rope from the uncontrolled conditional vertical, the high labor intensity of the work in the trunk and copra.

The closest to the expected useful model in terms of technical essence and the result achieved is the spirit level device (5) (Fig. 1), designed to measure the angles of deviation of the lifting rope in the vertical plane. During the measurement, the base of the spirit level 1 is pressed against the hoisting rope 5, which is being checked, and a reading is taken on the scale З (fixed on the bracket 2) and the scale 4, digitized in minutes of angle.

Disadvantages of this device are unreliable design, low accuracy of reading visually from the scale on the temple in conditions of strong ventilation, use only for measuring vertical angles of deflection of ropes. 2

The basis of the expected useful model is the task of creating the "VEGOR" device for checking the lifting equipment of mines, in which, due to sensors fixed on a rod installed on the base of the body, the technical result is ensured - an increase in the reliability of the design and the accuracy of measurements of the angles of deviation and inclination of the elements of rigid and rope reinforcement. co

The task is solved by the fact that in the "VEGOR" device for checking lifting equipment from mines, which includes the base of the body, according to the useful model, a rod with sensors for vertical, horizontal and micrometric measurement of the angles of deviation and inclination is installed on the base of the body, and the rod is movable connected to the body in two places and brought to a vertical or horizontal position with the help of sensors.

З In the prototype, a bracket for a temple and a scale for determining the angle of deviation of the rope only in the vertical plane are attached to the base of the spirit level device.

The "VEGOR" device, which is claimed, eliminates the unreliable design of measuring the angles of deviation of ropes along the shaft in mine conditions, provides micrometric measurement of the angles of deviation and inclination with the help of a rod with sensors not only from a vertical line, but also when the rod is in a horizontal position, which raises 70 reliability of the system and expands the scope of its application. Comparative analysis of the claimed device with the prototype makes it possible to conclude that the claimed device differs from the known one by excluding the visor and installing vertical, horizontal and micrometric measurement of deflection and tilt angles on the base of the rod body.

Thus, the "VEGOR" device, which is claimed, meets the "novelty" criterion.

Fig. 2 shows the general view of the "VEGOR" device. The device includes a body 1, to the base of which 2 on the Z axis and a rod 4 is installed, which passes through a hollow guide 5 with a spring for pressing the micrometer screw 6 to the bracket 7. The axis of the rod 8 is the starting line for measurement. The vertical sensor is a block of one double-sided micrometric level 9 with a division price of 10", fixed on the border of the rod 4 perpendicular to the axis 8 and the micrometer 10. When the screw of the micrometer b is rotated, the rod 4 rotates around the axis Z, changing the position of the level 9 in the vertical plane by 20 . When the device is in a horizontal position, the horizontal sensor is a block of one reversible micrometric level 11 with a division price of 10", mounted on a rod 4 0 parallel to the base 2. When the micrometer screw 6 rotates, the rod 4 rotates around the axis 3, changes the inclination of the level 11 relative to the horizontal plane.

The "VEGOR" device works in the following way. 29 Before measuring vertical angles of deviation and inclination of mining equipment, determine the location and direction of measurements. At the same time, choose convenient for measuring overlaps in copra, lay a floor for firing in the trunk, arrange a platform for the observer or use the covers of the lifting vessels for these purposes.

The complete measurement of the angle of deviation of the lifting rope from the vertical consists of two measures. In 60 the first step, the "VEGOR" device is in a vertical position. The rod 4 should be vertical and parallel to the base 2, the reading on the drum of the micrometer 10 should be in the zero position, and the bubble of the level 9 should be in the initial position. Violation of this geometric ratio is eliminated by adjusting screws when checking the device.

The first measuring step is performed in the following sequence: the base 2 is pressed against the rope 12 and with a 62 micrometer screw 6, the axis of the rod 8 is set in a vertical position, a reading is taken on the drum of the micrometer 10, which corresponds to the angle of deviation of the rope from the vertical and is equal to Fu

In the second step, the angle of deviation of the rope from the opposite side is measured. At the same time, the "VEGOR" device is turned to 1802 in the vertical plane. Perform similar actions and take a reading on the drum of the micrometer 10 from 9 on the other side of va: The angle of deviation of the rope and find it according to formula 1 in minutes:

Sho 1 o I0)

Gu from

Measurements of the inclination of the equipment from the horizontal are carried out in the following sequence: the base 2 is pressed against the structure (shooting) being checked, and by turning the screw b, the rod 4 is set in a horizontal position with the help of a bubble of level 11, a reading is taken on the drum of the micrometer 10, which corresponds to the angle of inclination of the equipment 1. Then move the device along the shot, take the next Fa angle

The angle of inclination Ф is found by formula 2 in minutes: н ( ф - Эф 2

To prevent an emergency situation of the lifting complex, the measurement results are sent to the management for making decisions that ensure the safe operation of the mine lift.

The proposed device ensures high reliability and reliability of measurements due to the fact that: 1. It contains the main functional sensors for measuring the angles of deviation and inclination of the equipment from the design position in the conditions of the mine. 2. The accepted layout scheme of the main elements of the "VEGOR" device expands the field of its application. WITH

Q. The device is easy to operate.

Sources of information 1. Safety rules in coal mines. Develop and approve! The State Committee "Oh Ukraine! on labor protection supervision 11/16/2004, Mo. 257. - Z50p. 2. Rules for the technical operation of coal mines. The publication is official. Standard of the Ministry of Coal Industry of Ukraine, - Me,

Kyiv, 2006. - ZOZs so

Z. Marksheiderskie work! in coal mines and open pits. Instruction. KD 12.06.203-2000. Kyiv, 2001. - 132. o 4. Instructions for the production of surveying works / VNYMI. - L.: Nedra, 1987. - 240p. со 4. Methodological instructions for surveying assurance of the construction of the technological complex of the mine surface. - L.: 1988. - 106 p.

Claims (1)

The formula of the invention h - Device for checking the lifting equipment of mines, containing the base of the body, which differs in that a rod with sensors of vertical, horizontal and micrometric measurement of the angles of deviation and inclination is installed on the base of the body, and the rod is movably connected to the body in two places and bring to the vertical and horizontal position with the help of sensors. o o so o (42) p. 60 b5