SU708153A1 - Centering device - Google Patents

Description

The invention relates to the field of 'geodesy, more specifically to instruments of vertical design.

In the practice of civil engineering work and surveying, tasks arise regarding the planned linking of underground structures. This problem is most easily solved using a coordinated vertical beam transmitted from the surface.

Known optical plummet containing a lens, a rectangular prism, a team with a grid of threads and an eyepiece. The optical plummet is mounted in a tripod - a mechanism that allows you to bring the optical axis of the device into a vertical position (11.

The aim of the invention is the design of a sheer line through opaque to visible light barriers.

This is achieved by the fact that an x-ray radiation source with a cross-shaped diaphragm is introduced into the proposed device, in the center of which there is a lens lens of an optical centralizer, the optical axis of which coincides with the axis of the cross-shaped diaphragm.

In FIG. 1 schematically shows the design of the described device; in FIG. 2 - the principle of the optical plummet; in FIG. 3 - x-ray radiation of the optical plummet.

The device contains an x-ray tube 1, mounted in a protective casing 2, filled with transformer oil 3. X-ray radiation is limited to a cross-shaped diaphragm. The cross-shaped diaphragm is formed by four rectangular radial grooves 4, rotated 90 ° relative to each other. The grooves 4 are made in the lower 5 and upper 6 disks, which are the bases of the hollow cylinder 7. The cylinder 7 (including disks 5 and 6) is made of a material with a high atomic number, for example, lead. The corresponding grooves of the upper and lower disks are in the same vertical plane. In the center of each disk 5 and 6 there are cylindrical holes 8 and 9. In the hole 8 of the lower disk 5 is attached a lens of the optical centralizer. The optical centralizer contains a lens 10, a rectangular prism 11, a grid-collector 12, and an eyepiece 13. A rectangular prism 11 is made of a material that weakly absorbs x-rays, such as plexiglass. The optical axis of the centralizer should coincide with the axis of the cross-shaped diaphragm. The axis of the cross-shaped Lyophagia is the line passing through the centers of the crosshairs of the lower 5 and upper 6 discs. The focal spot of the x-ray tube 1 should be on the axis of the cross-shaped diaphragm. The body of the cross-shaped diaphragm (cylinder 7) is fixed in a steel pipe 14, which is rigidly connected to the support ring 15. On the support ring 1.5 is attached a protective casing 2 of the x-ray source. The optical plummet is mounted on a tripod 16, which is fastened with screws 17 on a tripod 18. The device can rotate in a tripod 16 around a vertical axis on a support bearing 19. Tripod 16 is equipped with three lifting screws 20, with which you can bring the axis of the cross-shaped diaphragm into a plumb position. This adjustment is carried out under the control of two cylindrical levels 21.

in FIG. 2 shows a diagram of the use of an optical plummet for designing a coordinated plumb line in an underground collector 22.

The coordinates X _m and y _{N of the} plumb line are determined by geodetic reference of point N (the point of intersection of the vertical axis of the optical plummet with the surface), which is pre-marked using an optical centralizer (10-13).

Coordinates'X _N and U _m are transferred to the collector 22 by x-ray design. Registration of radiation can be carried out using electronic devices (such as an x-ray centralizer) or by means of an x-ray film. In j of FIG. Figure 2 shows the registration method using an X-ray film. Here, the X-ray cassette 23 with the photosensitive film 24 is mounted on a special stand 25 fixed on the base of the collector 22. In this case, the cassette is installed approximately under the fixed point, and the distance is measured with a tape measure. After exposure and photoprocessing, the x-ray film 24 is recharged ⁵ is loaded into the cassette 23 while maintaining the original orientation, and the cassette 23 with the upper light-protective cover open is installed on the stand

25. The center of the crosshair s' (Fig. 3) has the coordinates X ^ and Y _s . The coordinates of the desired object, for example, the pipeline shut-off valve, can be determined from the point Ν

26.

Claims (1)

(54) CENTERING DEVICE 10 optical centralizer. The optical centralizer contains a lens 10, a rectangular prism 11, a grid grid 12, and an eyepiece 13. The rectangular prism 11 is made of a material that weakly absorbs x-rays, for example, plexiglass. The optical axis of the centralizer should coincide with the axis of the cruciform diaphragm. The axis of the cruciate lyphoagma is considered to be a line passing through the centers of the intersections of the lower 5 and upper b disks. The focal spot of the x-ray tube 1 should be on the axis of the cruciform diaphragm. The body of the cruciform diaphragm (cylinder 7) is fixed in a steel pipe 14, which is rigidly connected to the support ring 15. On the support ring 1.5, a protective cover 2 of the x-ray source is attached. An optical plummet is mounted on a tripod 16, which is fastened with screws 17 on a tripod 18. The tool can rotate in a tripod 16 around a vertical axis on the support bearing 19. The tripod 16 is equipped with three lifting screws 20, with the help of which the axis of the diaphragm a can sheer position. This adjustment is performed under the control of two cylindrical levels 21. In FIG. Figure 2 shows an optical plumbing application for projecting an echo-coordinated plumb line to an underground reservoir 22. The plumb coordinates of the plumb line are determined by geodeticly pinning point N (the intersection point of the vertical axis of the optical plummet with the surface), which is pre-marked with an optical centralizer (10 -13). The coordinates XX and Y are transmitted to the collector 22 by X-ray projection. Radiation recording can be carried out using electronic devices (for example, an X-ray centralizer) or by means of an X-ray film. FIG. Figure 2 shows the method of recording with an x-ray film. Here the x-ray cassette 23 with the photosensitive film 24 is mounted on a special stand 25 fixed on the base of the collector 22. When this cassette is installed, it is approximately below the fixed point and the distance is measured with a tape measure. After exposure and photoprocessing, the X-ray film 24 is recharged into the cassette 23 with the original orientation preserved, and the cassette 23 with the top light-protective cover open is mounted on the stand 25. The center of the crosshairs (Fig. 3) has the coordinates XN and The coordinates the desired object, for example, a shut-off valve of the pipeline 26. Claims of the invention: a centering device comprising a lens, a rectangular prism, a collective with a grid of threads, a tracker for bringing the beam to a vertical position with two cylindrical levels, characterized in that, in order to design a plumb line through an opaque medium, an x-ray source with a cruciform diaphragm is inserted into it, in the center of which is located a lens objective of an optical centralizer whose optical axis is aligned with the axis of a cruciate diaphragm. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 145760, cl. G 01 C 15/10, 1961 (prototype).