CS230846B1 - A system for staking out and measuring inclined and vertical top chimneys - Google Patents

Abstract

The system solves the orientation of the excavation platform and the elimination of the danger of falling rock fragments on the measuring apparatus and the operator. In the protected space, the minio chimney is situated in a horizontal and perpendicular to the direction of the chimney oriented axis of the light beam, the quantum generator. On the pins set in the rock, a fixed arm is anchored with a slidingly extendable arm provided at the end, directed into the chimney space, with an optical refracting member and at the opposite end of the same extendable arm on a rotating ring with a device with a spirit level and at the same time a control mark is anchored in the same axis of the light beam in the protected space. The essence is further that a snap-on reflecting prism is attached to the control mark and a control plate is attached to the objective of the quantum generator. The protection of the refracting member in the working position is formed according to the invention by a protective cover, held extendibly on a joint and provided with an opening only for the passage of the light beam. Alternatively, a removable collimation member is inserted between the removable folding member and the extendable arm.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a kit for setting and measuring inclined and vertical, closely embossed chimneys to orient a punch platform.

It is known that when driving vertical and inclined, strongly driven chimneys in mines, despite all care deviations from the direction and bow. Fragments of rock fall from the chimney, their frequency increases with increasing length of the chimney and their speed increases.

This causes damage to the measuring devices and endangers the safety of the meters. Theodolites, lasers, inclinometers, pendulum gyroscopes and magnetic compasses are known from measuring aids which have hitherto been placed under the chimney or directly in the chimney. Also known is a kit for controlling and controlling the inclination and direction of inclined to vertical mine workings. Also, this kit must be fixed and adjusted from the chimney area where parts of the rock fall and where the operator may be injured. Other known systems employing lasers for stakeout, however, do not solve the problems applicable in chimneys with falling stone fragments.

The above drawbacks are overcome by a system for setting and measuring inclined and vertical, closely embossed chimneys, the object of the present invention is that a quantum generator is situated in the protected space outside the chimney in the horizontal and perpendicular direction of the chimney-oriented axis of the light beam. A fixed arm with a slide-out arm provided at the end facing the chimney space is anchored on the pins mounted in the rock. The optical snap-in member e at the opposite end of the same slide-out arm on the swivel ring is a vial and at the same time still anchored check mark. The essence is furthermore that on the control mark there is attached a mounting prism and on the objective of the quantum generator a control board. According to the invention, the protection of the wrapping member in the working position is constituted by a protective cover, which is held in a pull-out manner on the joint and provided with an opening only for transmitting the light beam. Alternatively, a removable collimating member is inserted between the removable wrap member and the extension arm.

The system according to the invention provides both the meter and the device with protection against falling stones and allows higher operability. All optical parts are removable and can be protected from dust, damage and condensation. At the same time, their return to the correct position is structurally and technologically designed so that it consumes minimal time and is easy to operate. The system does not require human operation after adjustment, it is activated and shuts down by plugging in electricity outside the hazardous area. The permanently visible light beam defines the inclination and direction along the entire length of the work. To ensure that the direction of the driven chimney is correctly set, a permanent inspection is ensured, which is carried out directly from the mobile cage protected by the platform.

In the drawing, the system according to the invention and its method of use are schematically illustrated, in which Fig. 1 is an overall plan view of the built-in system including the measurement landmarks; Fig. 2 shows a longitudinal axial section.

The system according to the invention consists of a quantum light generator 1, from which a light beam 2 forms a light-oriented line J which, for inspection, is directed to the check mark 4, preferably with a retractable prism 4a. Sliding arm 2 is attached movably in the pins 6 pomucí clamping bolts 2 anchorage rigid arm 8, the light beam 2 passes through the axis of the telescopic arm 3 ⁰ is incident perpendicularly on the collimating element 2 ⁰ goes through the removable aalamovacím member JO which is flipped about the cranking angle. preferably using a pentagon prism of 90. Sliding arm 2 carries at one end a removable cranking member 10 and the collimating element 2 ⁰ at the other end is provided with a spirit level on the 11th a longitudinal axis perpendicular to the light beam 2 in the rotating ring 12, which is locked by the clause 13. A portion of the light beam 2 is reflected from the collimation member 2 or the control mark 4 (with the removable wrapping element 10 removed). 1 mounted on a quantum generator 2, which is removably, by means of forced centering, mounted in a rectifying pad 15 incorporated with a fixed arm 8 by means of anchors 16 in the protected area of the building 18 where the breaker member 10 can be partially protected from falling rock by dust a cover 19 secured to the slide 20 in the joint 20 by means of the anchor 16 and provided with an opening 21.

With the device according to the invention proceeds such that the bottom creates a protected space 17 and tilts it in the měřlekým - geodetic manner thereon and incorporated rectification pad 15. In that horizons quantum generator 1 and the light beam 2 ^{in the} direction ® ^v0_ will call versed a check mark 4 selected so that the axis of the light beam 2 is perpendicular to the direction of the future top-struck object, the check mark 6 may be supplemented by a non-interference prism 4a. On the surface in the safe area, the leveling of the vial 11 on the extension arm 2 is pre-adjusted according to the projected inclination of the future top-driven object.

The inclination of the vial 11 must be the same as the projected inclination of the future top-driven object. The leveling of the vial 11 in the rotary ring 12 on the extension arm 2 is carried out by positioning the wrap member 10 by means of forced centering unambiguously on the other end of the extension arm 2, The most commonly known geodetic tasks according to the lengths of the right triangle are used. Then turn the rotary ring 12 until the vial 11 is leveled and then the stop 13 is locked.

Thereby a retractable arm 4 is provided for transfer to the mine. Advantageously, the wrapping member 10 can be removed from the extension arm 2. In the protected space 17, a fixed arm 8 is anchored according to the beam axis 2 by means of anchors 16 and the extension arm 2 is fixed to the fixed arm 8 by sliding it into the pins 6. Then, the collimating member 2 and the folding member 60 are mounted on the extension arm 2, and the position of the extension arm 2 ^is adjusted by means of the clamping screws 2 so that its longitudinal pivot axis coincides with the axis of the light beam 2.

The extending arm 2 thus arranged ^{in the} pins 6 extends from the protected area 17 into the danger zone 18 of the top-down chimney up to the end of the ring 12 and rotates in the pins 6 until the vial 11 is horizontal. Then, the extension arm 2 is firmly anchored in the pins 6 by the clamping screws 2. The light beam 2 emerging from the quantum generator 6 partially reflects from the collimation member 2 and strikes back centrically on the control plate 24, most of the light of the light beam 2 passes through 0 and breaks into the direction and inclination of the projected top-down chimney.

Claims (4)

A system for staking and measuring inclined and vertical top-down chimneys, consisting of a quantum light generator and an optical wrapping system, characterized in that it is situated in a protected space (17) in a horizontal and perpendicular direction to the chimney (18) oriented axis of light In the beam (2) the quantum generator (1) and on the pins (6) anchored a fixed arm (8) with a sliding arm (5) provided at the end facing the chimney space (18), an optical pick-up (10) and the opposite end of the same telescopic arm (.5) on the rotary ring (12) is a claw (13) with a vial (11) and at the same time an inspection mark (4) is anchored in the protected beam (2) on the same axis of the light beam (2). ). Assembly according to Claim 1, characterized in that a mounting prism (4a) and a control plate (14) are attached to the objective of the quantum generator (1) on the inspection mark (4). Assembly according to Claims 1 and 2, characterized in that above the folding member (10) in the working position there is a protective lid (19), which is held on the joint (20) in a retractable manner and has an opening (21). Assembly according to Claims 1 to 3, characterized in that a collimating member (9) is alternatively inserted between the removable wrap member (10) and the extension arm (5).