SU1075996A3 - Device for measuring angles of inclination - Google Patents

Abstract

Level in which the air bubble (4) is adjustable with respect to the surface to be measured (30), by means of an adjusting element (28) inside the casing (24). The adjusting element (28) has, for that purpose, at least one adjusting screw (44, 46, 48) the coned or tapered end (42) thereof bears on a coned o tapered edge. This edge is either on an envelope (20) surrounding the air bubble or on a supporting piece (66, 68, 70, 72, 74) fixed at the end of the chamber containing the air bubble or on this vitreous chamber itself. An elastic element (51, 53) is placed on the opposite side of the contact point of the adjusting screw with the coned or tapered edge (40). This elastic element allows to limit the magnitude of the displacement force of the adjusting screw.

Description

2. The device according to claim 1, wherein the elastic element is made in the form of a flexible rod.

3. The device according to paragraphs. 1 and 2, characterized in that the elastic element is inserted at one end into a recess on the outer frame rigidly fixed relative to the level ampoule.

4. Device on PP. 1 or 2,3, characterized in that the outer frame is fixed on the curved portion of the ampoule.

5. Device on PP. 1-4, characterized in that the tip of the bending rod adjacent to the surface of the frame is bent so that the contact point is located on the outer part of the bend,

6. The device according to claims 1-5, in that the set screw and the elastic element are placed in a common frame, rotatable relative to an axis parallel to the axis of the level.

7. A device according to claim 1, characterized in that two mounting screws are provided that are offset by 90 ° one relative to the other around the axis of the level.

The invention relates to devices for determining the inclination of objects, surfaces for various types of geodesic, construction works, and the erection of buildings and structures.

Known devices based on the use of cylindrical levels 1.

In such devices, to ensure the required high accuracy, the alignment of the level position, the level axis relative to the reference surface, is extremely important.

Adjustment devices are known with the help of various combinations of screws and elastic elements acting in a direction perpendicular to the level 2 axis - t.4.

However, with such a construction of adjusting devices, unacceptable stresses arise that can lead to displacements of the level axis during operation.

The closest technical solution to the problem of adjusting the axis of a cylindrical level in a device for measuring tilt can be considered the use of an adjustment body oriented parallel to the axis of the level. A cylindrical level in a device with such an adjustment body is placed in an installation frame with an outer base surface so that one end of the level ampoule with a spherical tip can rotate around an axis parallel to the level axis, while the other is covered by an alignment member and an elastic element formed by a spring-loaded spacer curved collet I.

But in this case, the rotation of the adjusting organ can lead to twisting, if no preliminary efforts are made to prevent

such twisting.

The purpose of the invention is to improve the accuracy of the alignment of the level position.

To achieve this goal in a device for measuring tilt angles,

0 containing a cylindrical level installed in the housing with the possibility of rotation with its one end relative to the base surface, at least one organ with a curvilinear

5 with a side surface for precise adjustment of the position of the level relative to the base surface, oriented parallel to the axis of the level and installed with the possibility of rotation around its longitudinal axis, as well as an elastic element for fixing the adjustment body in the selected position, the adjustment is made in the form of a set screw with conical or curved side surface in contact with the level surface at the point of the circle passing through the point of contact of the elastic element with the surface

Q level

In this case, the elastic element is made: .nen in the form of a bending rod.

Moreover, one end of the bending rod can be inserted into the recess on the outer frame rigidly fixed relative to the level ampoule.

In addition, it is advisable to fix the outer frame on the curved portion of the ampoule.

Provided and such a construction

0 at which the tip of the bending rod adjacent to the surface of the frame is bent so that the point

contact was located on the outer part of the bend.

The adjusting screw and the elastic element are placed in a common frame, rotatable about the axis, parallel to the axis of the level.

To provide adjustment in two mutually perpendicular planes, two set screws can be provided, displaced by 90 one relative to the other around the axis of the level.

FIG. 1 shows the proposed device, a vertical section of a plane parallel to the axis of the level; FIG. 2 shows section A-A in FIG. 1, in FIG. 3 - the same, when performing the device with two adjusting bodies; in fig. 4 - unit for fastening the free end of the level ampoule without adjusting organs; in fig. 5 is another variant of the mount; FIG. 6 - interface of the ampoule with the adjustment body; in fig. 7-9 - interface, construction options.

The device 1 contains a cylindrical level 2, which is an ampoule 3 with an air bubble 4, made integral with the base 5. The end of level 6 opposite to the base after pouring, for example, is sealed with alcohol to form a scalloped 7. On the upper side 8 of the ampoule 3 are two scales 9 and 10, which provide a reading of the position of both oppositely in the longitudinal direction of the ends of the air bubble 4 enclosed in it. This air bubble tends to move to the highest place polished in the inner the wall of the level of concavity with a large radius.

The ampoule 3 is enclosed in the sleeve 11. The fixing in the housing — the sleeve 11 can be carried out by pouring the level ends with a rigid mass that penetrates the space between the outer wall of the level and the inner wall of the sleeve to the sealing ring 12 and then hardens.

The sleeve 11, for its part, holds the receptacle in the receiving hole 13 of the housing 14 and can, with the help of the adjusting adaptation 15, expose with high precision relative to the bearing surface 16. In order to ensure that slags 9 and 10 can be observed both in the sleeve 11 and in The housing 14 at the top has elongated holes 17 and 18.

One end of the sleeve 11 abuts its outer edge 19 to the spherical end 2P of the housing 14. Thus, rotation and centering of the free end of the ampoule 3 is observed. At the other end of the sleeve 11, there is a tapered or concave longitudinal inner edge 21, to which the conical surface 22 of the adjusting screw 23 or screws 24 and 25 offset by 90, as well as the curved end of the flexural

0 rod 26. At the same time, the contact point of the rod lies on the same circumference with the points of contact of the screw 23 or screws 24 and 25. As a result, the radially directed elastic force of the rod opposes the installation force of the screw 23 radially relative to the sleeve 11 24 and 25 counteracts the force of the rod 26 opposite to the component force. Thus, it is achieved that the installation force of the screws cannot be greater than the elastic force of the rod. Subsequently, the change in the shape of the liner is prevented due to the radial and axial forces of the adjusting screws. This elastic force remains unchanged for an extended period of time, so that changes in alignment do not occur during shock effects. Limiting the adjusting force of the adjusting screw allows, under certain conditions, to exclude the use of the sleeve 11. The resulting adjusting forces can be perceived directly by the ampoule 3.

The set screws 23-25 are screwed on a thin thread into the threaded

0 apertures of a cylindrical frame 27 inserted in an extended drilling part 28 of the body 14 and secured with a pressure screw 29 included in a notch 30 extending along an outer circumference of the circumference around the frame 27. The frame 27 holds an elastic rod 26, which may have various cross-sectional shapes such as round, rectangular and

0 I

In the inner edge of the sleeve 11, a recess 31 is provided in which the end of the bending rod 26 enters. Thus, the gateway of the rim 27 is transmitted around its axis.

on the sleeve 11 and is provided with auste-i, the level position of the level around its longitudinal axis is equal. Different positions of the rim 27 can be fixed,. with push screw.

 that 29.

To limit the adjustment movement of the set screws, they are provided with a head 32 located 5 in the holes 33 of the rim 27. At the edge

Razen drilling may be provided for markings in the form of a scale. The marking on the screw head allows the precise setting of the specific adjustment movement of the set screw.

Due to the thin thread of the screws and the conical shape of the surface of the screw 22, the rotation of the screw is converted into a radial movement of the end of the sleeve. 11 and provides the possibility of precise adjustment. The end of the screw 23 instead of the conical one can also be curved convexly or concave in longitudinal direction, i.e. arched The same is true of the edge 21. The shape of the surfaces is chosen so that, despite the installation of the adjustment screws in their radial direction, the contact point between the end of the screw 23 and the inner edge 21 of the sleeve 11 is in the same radial plane as the contact point elastic rod 26 and inner edge 21. Thus, bending forces are eliminated.

Instead of the sleeve 11, holders 34-37 or 38 can be attached to the ends of the glass ampoule (Figures 4-6, 8 and 9). In the latter case, the ends of the ampoule are rigidly held in the cartridge 39, and they are glued to it or fixed with the help of a casting mass. The outer end of the holder 38 is provided with a conical inner edge 40 corresponding to the inner edge 21. The holders 3438 simultaneously serve as a frame for the end of the glass ampoule 3. Rims

or come in contact with the glass ampoule (Figs. 4, 5 and 8), or cover it through the cartridge 41 (Fig. 6). To securely seal between the contacting surfaces, a knuckle gasket 42 is provided. The inner edge 43 of the holder 36, provided for contacting the surface 22 of the screw 23, is also provided with a recess 44 for the elastic rod 26 ..

The ball frame 45 or 46 cooperates with the conical surface 47 or 48. The ball frame 45 is provided at the end of the cylindrical support body 49, which is held fixed by means of a pressure screw 50 at the drilling end of the casing 51.

A variant is possible (Fig. 7), in which the nN sleeve 11 is not used, nor the holders on the ends of the ampoule 3. The inner edge 52 for interacting with the surface 22 of the installation kint, as well as the conical

5 end edge 53 at the other end. directly on the glass ampoule 3. The fluid is enclosed between the two sealing elements 54 and 55, which are inserted into the ends of the ampoule 3 while providing sealing. The free end of edge 53 lies on the ball surface 54 at the base of the hole 56.

The proposed device has a relatively simple design that is easily and reliably adjusted. The stability of the adjustment is maintained and can be monitored for a long time.

51 9 5 «7

50 Fig 4

Fig 5

36 22.

t / 2J

1 fig 6

J7

5 & g / g

53 5

J8

Lyw

 FIG. 9

Claims (7)

1. DEVICE FOR MEASURING TILT ANGLES, containing a cylindrical level mounted in the housing with the possibility of rotation with one end relative to the base surface, at least one body with a curved side surface for precise alignment of the level position relative to the base surface, oriented parallel to the level axis and installed with the possibility rotation around its longitudinal axis, as well as an elastic element for fixing the adjusting body in the selected position, which requires that, for the purpose of In order to determine the accuracy of alignment of the level position, the alignment body is made in the form of a set screw with a conical or vaulted side surface in contact with the level surface at a point of a circle passing through the contact point of the elastic element with the level surface. Srig1 1,075,996 A 2. The device according to p. ^ Characterized in that the elastic element is made in the form of a flexible rod. 3. The device according to paragraphs. 1 and 2, characterized in that the elastic element at one end is inserted into a recess on the outer frame rigidly fixed relative to the level ampoule. 4. The device according to paragraphs. 1 or 2.3, characterized in that the outer frame is mounted on the curved part of the ampoule. 5. The device according to PP, 1-4, characterized in that the tip of the bending rod adjacent to the surface of the frame is bent so that the contact point is located on the outer part of the bend. 6. The device according to claims 1 to 5, which can be explained by the fact that the set screw and the elastic element are placed in a common frame that is rotatable with respect to an axis parallel to the level axis. 7. The device according to π. 1, characterized in that there are two set screws offset 90 ° from one another relative to the other around the level axis.