SU1264029A1 - Powered sampler - Google Patents

Abstract

The invention relates to devices for sampling from solid monolithic materials, can be used in the exploration and mining industries and can reduce energy costs, increase disk resources and the performance of the sampler. The sampler includes a housing 1, two disks 2 and 3 aligned at an angle with rotation axes 4 and 5 in different planes. The axis of the lower scoring disc 2 is located at the diameter value in front of the axis of the upper cutting disc 3. The cutting edges 6 and 7 of discs 2 and 3 protrude from the edge of the body 1 and are covered (on the sides and bottom) with an elastic cuff 8. The lower part of the body has an opening and is made as a discharge pipe 9. 1 Il.

Description

The invention relates to a device for sampling from solid monolithic materials - rock ores, rocks, as well as cutting grooves in stone, concrete, reinforced concrete blocks and can be used in geological exploration, mining, stone processing, construction and other industries.

The purpose of the invention is to reduce energy consumption, increase the service life of disks and the performance of the Sampler, as well as improve working conditions and safety due to the use of natural fracturing of ores, reduce noise and eliminate the possibility of scatter of cut material.

The drawing shows a mechanical sampler, section.

The mechanical sampler includes a housing 1, two docked. At an angle of the cutting disc 2 and 3, the axis of rotation of which 4 and 5 are placed in different planes, and the lower axis. th cutting disk is located by the diameter in front of the axis of the upper cutting disk 3. At the same time, the cutting edges 6 and 7 of these disks protrude beyond the edge of the housing 1, and from above, on the sides and from below they are covered by an elastic cuff 8, which prevents pieces of the cut material from flying outside corps. Its lower part has an opening and is made in the form of an outlet pipe 9, on the edge of which a removable test container 10 is fixed.

For the transmission of rotation from the drive 11 on the axis of the cutting discs 4 and 5, there are flexible links 12-13, and for pressing the cutting working discs to the surface to be tested, there is a mechanism 14 for the transverse feed of the housing with the rod 15.

The whole device is placed on a horizontal rotary frame 16, which is mounted through the vertical axis 17 to the transport mechanism 18. For cooling the disks and dust suppression, there is a container 19 with a tube 20 for supplying coolant to the cutting edges of the diamond disks.

The device operates as follows.

The drive 11 is turned on, through flexible connections 12-13 transmitting rotation to the cutting discs 2 and 3. Moving the sampler with the drive 11 along the tested surface on the transport mechanism 18 and pressing it to it using the feed mechanism 14, the furrow is cut in the monolith by cutting discs 2 and 3 regular triangular cross-section, sustained along the entire length of the sampling line.

The material separated in this case from the monolith in the form of pieces and sludge freely falls behind the lower disk and, under its own weight, is completely collected through the outlet pipe 9 in a removable test container 10.

Coolant from the tank 19 through the tube 20 is supplied to the cutting edges 6 and 7 of the cutting discs.

The main technical advantages of the mechanical sampler compared to the prototype are a fundamentally new relative position of the rotation axes and the cutting discs, the sequential placement of which in space one after the other (upper after lower), as well as automatically complete collection of all cut material in the test container, reduce energy consumption and level noise, increased sampling performance and disk life, improved working conditions and 6e- _f safety.

Claims (1)

Claim A mechanical sampler for sampling from solid monolithic materials, such as rock ores, including two identical cutting disks placed on top of each other in mutually perpendicular planes, characterized in that, in order to reduce energy consumption, reduce noise, increase disk life and sampler performance , the axis of rotation of the cutting discs are located in different vertical planes parallel to each other, while the axis of rotation of the lower cutting disc is located in front of the axis of rotation of the top cutting blade by the value of its diameter.