SU1348647A1 - Device for levelling instruments - Google Patents

Abstract

The invention relates to geodetic instrumentation and m. used to bring the vertical axis of the tool into a plumb position without disturbing the centering. The purpose of the invention is to improve the accuracy of the alignment. The controllable element 4 of the device is made in the form of a cylinder with a protrusion placed between the annular wedges 2. When visually monitoring the position of the bubble level 20, the desired angular position of the element 4 in two planes is provided by an insert 3, which unfolds together with the wedges 2 as the leads move. The outer planes of the wedges 2 are spaced from one another at a distance equal to the sum of the thickness of the annular protrusion and the double thickness of the wedge 2 in the middle part. The horizontal device 19 is mounted in the hollow cylinder of the element 4. 3 Il. (L with 4 00 about: 4 Thebes. /

Description

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The invention relates to geodetic instrument making and mechanical engineering, in particular, to devices for bringing the vertical axis of the tool to a vertical position without disturbing the centering.

The aim of the invention is to improve the leveling accuracy.

Figure 1 shows the device section; figure 2 is a section in figure 1; FIG. 3 is a diagram for explaining the operation of the device.

The device contains a cylindrical body 1, a wedge consisting of annular wedges 2 and inserts 3, a controllable element 4 in the form of a hollow cylinder with an annular protrusion, a clamping ring 5, an elastic element 6, a cover 7 a sleeve 8, a worm to 9, a frame 10 with pins 1 1 and 12, handle 13, latch 14 drivers 15, rod 16 brakes, sleeve 17, diaphragm 18. A horizontal device 19 with levels 20 and 21 is installed on the controlled element 4.

The housing 1 is made with a cylindrical cavity and a thread at the outlet under the clamping ring 5, which closes the constant axial dimension of the cylindrical housing cavity. The grooves a, b serve to limit the angles of rotation of the wedges 2, the groove c, conjugated with the sleeve 17, in order to exclude the turning of the controlled element 4 relative to the vertical axis; The groove m is made along the radius.

Functional wedges are formed from rings 2 and self-aligning inserts 3. Ring wedges 2 on the surfaces facing the inside of the device have two conical recesses diametrically arranged. On the outer cylindrical surfaces of the rings, the worm sectors d are cut, and holes are made for the leads 15. With small ranges of angular displacements of the controlled element 4, the rings 2 can be made with parallel surfaces (FIG. 3).

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The inserts 3 are made in the form of a sphere 50 (has a zero value, which corresponds to the middle of the range of angles of leveling.

The device works as follows.

In the initial position for operation, the device is mounted on a tripod. In the hollow cylinder of the controlled element 4

self-setting them in the tapered jacks of the rings. Inserts can be made in the form of cylindrical segments (Fig. 3), and the sockets for them in the rings 2 should also have a cylindrical shape.

The controlled element 4 is made in the form of a hollow cylinder with an annular height 55

install the leveling device 19.

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stupid, having a spherical area f, bounded by parallel planes g and h, symmetrical about the center O of the sphere f. A two-stage through-hole is made in the annular protrusion for mounting the stem 16, the brake and the spring-loaded sleeve 17. The annular protrusion of the controlled element 4 can be designed both at a right angle to the axis of the hollow cylinder (FIG. 1) and coaxially with it (FIG. .G)

Worm to 9 is mounted in frame 10, bearing trunnions 11 and 13, with the possibility of switching for engagement with the worm sectors d, e for precise orientation of the controlled element 4 in two planes by micro-displacement of the annular wedge 2 and to the neutral position with a coarse orientation of the immediate reversing wedges, leads 15.

The pin 11 is eccentric to the axis with a conical cam, which interacts with the end surface of the sleeve 17, which transmits the movement of the brake through the spring to the rod 16 when the handle 13 is set to the neutral position (figure 2).

Krischka 7 is made in the form of an elastic half-ring and has a groove i for a leash 15.

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The elastic element 6 is made in the form of a ring with the possibility of adjusting the force with screws n and serves to unload the device from the action of the mass of the orientable device.

The diaphragm 18 protects the internal cavity of the device from the influence of the external environment.

The horizontal device 19 is fixed in the hollow cylinder of the controlled element 4. The device is fixed by threading the sleeve 8.

With a horizontal arrangement of the supporting surface B of the device angle

install the leveling device 19.

The device can operate in manual and automatic mode.

In the manual mode of operation, when driving the leads 15, the rings 2 fastened with them are unfolded together with the self-aligning inserts 3. In this plane, the inserts are in pairs in constant junction with the parallel planes g, h of the controlled element 4 and set it to angular position in two planes while visually monitoring the position of the level 20 bubble.

The exact setting of the controlled element 4 is carried out by rotating the screw 9 in the switched on state with the worm sector of the corresponding wedge.

When translating the screw 9 into the neutral position, the angular position of the spigot of the horizontal device is fixed at the expense of

Claims (1)

cam pin 11 through the spring-loaded sleeve 17 on the brake rod 16. Invention Formula A device for leveling devices, comprising two annular wedges arranged in a housing, made with the possibility of reciprocal angular movement, controlled and resilient elements, characterized in that, in order to improve the leveling accuracy, the controlled element is made in the form of a cylinder with circular wedges one of which is made with the possibility of additional angular micromovement, annular protrusion, the elastic element is made in the form of a ring located between the end of the cylinder and the base meters of the body, and the distance along the axis of rotation of the device between the outer planes of the annular wedges is equal to the sum of the thickness of the annular protrusion and the double thickness of the annular wedge in the middle part. Ti t Jkafcflggw Editor N.Shvydka Compiled by V.Sarahanov. Tehred M.Hodanich Proofreader V.Girn to Order 5178/39 Circulation 676 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 f (/|.3