SU1317162A1 - Set for driving mine workings - Google Patents

Abstract

The invention relates to mining equipment, in particular to the means of transportation and loading of rock mass. The goal is to increase reliability, decrease metal intensity and increase bucket reach. The installation includes a frame 1, on which drilling equipment 2 is mounted, and a telescopic boom 4 with a hilt 5 with a bucket tool 6. The balance carriage 10 and its axis 9 are placed at the end of the boom 4 in front of the hand 5 and are connected to the end Booms 4. The front end of the carrier frame 1 has support rollers 13 for the boom 4. After blasting, the installation along the track 14 is fed into the bottomhole working zone and is installed at a distance required for operation. Then push the hydrojack 11 boom 4 with the undercarriage of the truck 10 in the direction of broken rocks. Working body 6 scoop reclaimed rock. Then the working body 6 is lifted by the hand 5 and the hydraulic jack 11 retracted the boom 4 with the carriage 10, rotate the hand 5 and unload the rock into the vehicle 15. This reduces the loads on the boom 4 junction with the carrier frame 1, eliminates bending forces in the boom 4 and, consequently, reduces the metal consumption of the installation. 2 Il. with S (L with -4 Od ISD Fig. 2

Description

The invention relates to mining equipment, in particular to means of transportation and loading of rock mass.

The purpose of the invention is to increase reliability, reduce metal consumption and increase the bucket height.

Figure 1 is a diagram of a plant for mining; FIG. 2 is the same in the bucket loading position.

The installation comprises a nonsigned frame 1, hollow inside a longitudinal beam, on which drilling equipment 2 with a 3 movement drive is mounted, a telescopic boom 4 equipped at the end with a hydraulically controlled handle 5 with a side unloading bucket. The fixed part of the telescopic boom 4 is made in the form of a supporting frame 1, in the middle part of which, coinciding approximately with the center of gravity line or shifted somewhat backward, is placed the axis 7 of the rear balancing chassis carriage

8 so that sufficient stability of the whole installation in the transport position is preserved (FIG. 1). Axis

9 of the front balancing carriage 10 and the carriage are placed at the end of the telescopic boom 4 in front of the hand 5 and are connected with the boom end

4. The telescopic boom 4 is provided with a hydraulic jack 11 placed inside the carrier frame 1, the rod 12 of which is fixed in the rear end of the carrier frame 1 and ensures the motion of the telescopic boom 4 by 4-5 m. The front end of the carrier frame 1 contains support rollers 13 for the telescopic boom 4.

In order to move the installation, a rail track 14 is laid on the excavation soil. For carrying out the inclined excavation, the installation is equipped with a trailer device located at the rear of the supporting frame 1 for connection to the rope and winch (not shown)

The device works as follows.

After blasting, the installation along the rail track 14 is fed into the near-well zone of production and set at such a distance from the pile of rock that it is possible to carry out the introduction, scooping and

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the load of the bucket working body 6 into the vehicle 15 (trolley or skip), located on the side of the installation on a parallel track. Without moving the entire installation, the hydraulic jack 11 pulls the telescopic boom 4 together with the front chassis truck 10 towards the pile of broken rock 4-5 m long. Using the working 6, they scoop the broken rock and lift the organ 6 with a hydraulic jack 11 to pull the telescopic boom 4 together with the front carriage 10 to the location of the vehicle 15, rotate the handle 5 and unload the rock into the vehicle 15. Thus, when the telescopic boom 4 is moved together with the front carriage 10 minutes, to a compound of the boom assembly to the base frame 1 and the boom are minor load, as the load is sensed substantially .vs front undercarriage, the increased longitudinal stability of the entire system.

After harvesting a part of the pile of broken rock at a length of 1.0-1.5 m of mine workings, the entire installation is moved to a new entry to clean up the remaining rock. The drilling equipment 2 during loading of the rock is located in the rear part of the supporting frame 1 and does not interfere with the operation of the loading body 5.

After the entire rock has been harvested and the production is fastened, the telescopic boom 4 is drawn into the carrier frame 1. The drilling equipment 2 is moved along the carrier frame 1 from the transport position to the drilling position by means of the actuator 3 and the bottom is curved. The drilling equipment is then brought to the transport position and installed on track 14 by means of a winch, is rolled back to a safe distance for blasting operations.

Thus, the proposed installation at work reduces the load on the boom connecting unit with the carrier frame and virtually eliminates bending forces in the boom itself, which allows reducing the metal intensity of the installation and increasing its reliability with an increased course of the telescopic boom.

Claims (1)

Invention Formula An installation for excavating, including a frame, drilling equipment installed on it with a means for moving it along the frame, a telescopic boom with a hand and a bucket tool and The front and rear carriages, characterized in that, in order to increase reliability, reduce metal consumption and increase the volume of the bucket, a telescopic boom is mounted on the front carriage and is connected to it with an end to which a handle is attached. Editor Y. Sereda Compiled by N.Tuleninov Tehred L. Oliynyk Proofreader E. Roshko Order 2А04 / 30 Circulation 429 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4