RU70361U1 - MOBILE DEVICE FOR DETERMINING AN OBJECT TILT ANGLE - Google Patents

Abstract

It can be used for orientation in the space of a hand-held construction tool. It contains a sealed transparent sphere (1) filled with liquid until the indicator element forms in the form of one indestructible air bubble (2), installation area (3), base (4), measuring scales (5), (6) and (7). The latter are made on the outer surface of the sphere (1) symmetrically with respect to the corresponding diametrical central circles (8), (9) and (10) and are bounded by circles: a measuring scale (5) - circles (11) and (12), a measuring scale (6) with circles (13) and (14), and the measuring scale (7) with circles (15) and (16). Moreover, the measuring scales (5), (6), (7) are made on the sphere (1) in such a way that the planes (17), (18) and (19) forming the circles (8), (9) and (10 ), respectively, are mutually perpendicular. When installing the installation section (3) in the dovetail grooves of the base (4) mounted on the housing (20), the plane (18) coincides with the symmetry plane (21) of the hand tool, the plane (19) is parallel to the symmetry plane (22) hand tool, and the plane (17) is parallel to the plane (23) of the processing object. Measuring scales (5), (6) and (7) form zones (24), (25), (26), (27), (28) and are made with divisions that allow you to orient the tool within 210-270 degrees. When drilling a wall, the perpendicularity of the drill and the wall is set visually by an air bubble (2), which should be in zone (24). When drilling the floor - in zone (26). When drilling the ceiling, in zone (25). Its location is controlled by visual alignment of the zone (26) with the zone (25), which is visible through the liquid of the sphere (1). Simplified control of the installation angle of a hand-held construction tool relative to the processing object. 7 c.p. f-ly, 7 ill.

Description

The invention relates to the field of measurement technology and can be used for orientation in the space of a hand-held construction tool, such as a hand-held electric drill.

A device is known for determining the angle of inclination of an object, comprising a body made in the form of a vessel partially filled with liquid and equipped with a scale deposited on its surface, the vessel being made in the form of two transparent concentrically located hemispheres connected by a vertical diameter by a tube (see a.s. USSR No. 705254, IPC G01C 9 / 36.1979).

However, this device is cumbersome, with its help it is possible to measure only insignificant tilt angles (up to 45 degrees), and, in addition, it cannot be installed on a hand-held construction tool to determine the tilt angle of the latter during construction work (horizontal or vertical tool relative to the wall, floor )

The task of creating the inventive mobile device for determining the angle of inclination of an object is to create a design that provides the ability to visually control the angle of inclination of a hand tool during construction work, i.e. determining the horizontal or verticality of the tool relative to the processing object, and due to this, improving the working conditions of builders, increasing productivity during construction work.

The problem is solved in that in a mobile device for determining the angle of inclination of an object containing a body in the form of a sphere filled with liquid with a measuring scale applied on its surface, according to a useful model, the sphere is completely filled with liquid until only one indivisible indicator element is inside, while the sphere equipped with a device for securing it to the object, and the measuring scale is made in the form of three spherical measuring tracks on the surface of the sphere, each measuring road ka is made on the sphere symmetrically with respect to its center line formed by a plane passing through the diameter of the sphere, while measuring tracks are placed on the sphere so that the planes passing through their center line are perpendicular to each other, and the fixing device on the object is made with the ability to install the sphere at the facility with the provision

coincidence of the plane passing through the center line of one of the measuring tracks, with one of the planes of symmetry of the object, parallelness of the plane passing through the center line of the second measuring track, with the second of planes of symmetry of the object, and parallelness of the plane passing through the imaginary center line of the third measuring track, with the plane of the object to be processed, while measuring tracks made with the possibility of measuring the angle of rotation of the object by 210-270 degrees, and the width of the measuring tracks made and commensurate with the size of the display element.

In addition, the indicator element can be made in the form of an air bubble or a ball, the density of which is less than the density of the liquid with which the sphere is filled, and measuring scales can be performed on the outer surface of the sphere, while the sphere can be equipped with a filling element, and the fixing device can be made of composite: from the installation area, fixedly fixed on the sphere, and the base, fixed on the object, in the form of the corresponding parts of the dovetail connection, with the possibility of their easy fixation nations among themselves.

The use of the proposed mobile device for determining the angle of the object allows you to provide the following technical result:

- it becomes possible to install a hand-held construction tool at the required angle relative to the processing object;

- simplifies the process of monitoring the required installation angle of a hand-held construction tool relative to the processing object in the process of performing construction work.

Besides:

- it becomes possible to equip a hand-held construction tool with a small-sized tool to control its position in space relative to the processing object;

- improving the working conditions of builders;

- increases the productivity of builders in the performance of work.

Figure 1 shows a mobile device for determining the angle of inclination of the object, a General view, figure 2 - view A in figure 1, figure 3 - view B in figure 2, figure 4 - shows the relative position of the processing object and a device installed on a manual electric drill (with a horizontal location of the drill - drilling a wall), Fig. 5 is a view B in Fig. 4 (conditional image), Fig. 6 shows the relative position of the processing object and a device mounted on a manual electric drill (with a vertical location of the drill - drilling the floor), Fig.7 - shows

mutual arrangement of the processing object and the device installed on a manual electric drill (with a vertical location of the drill - drilling the ceiling).

A mobile device for determining the angle of inclination of an object contains a sealed transparent sphere 1 filled with liquid until an indicator element forms in the form of one indestructible air bubble 2, a device for fixing the sphere 1 on the object in the form of a mounting section 3 and base 4, and measuring scales 5, 6 and 7 The latter are made on the outer surface of the sphere 1 symmetrically with respect to the corresponding diametrical central circles 8, 9 and 10 and are bounded by circles: a measuring scale 5 - circles 11 and 12, measuring scale 6 - circles 13 and 14, and measuring scale 7 - circles 15 and 16, and the distance between the latter is made comparable (for example, equal) with the diameter of the air bubble 2. The measuring scales 5, 6, 7 are made on sphere 1 in this way that the planes 17, 18 and 19, forming circles 8, 9 and 10, respectively, are mutually perpendicular. The base 4 is made in the shape of the housing 20 of the hand tool and fixed on the latter, and the installation section 3 is made in the form of a sphere 1 and is also fixed on it, the latter being mounted on the sphere 1 so that when installing the installation section 3 in the grooves of the dovetail type "The base 4, mounted on the housing 20, the plane 18 (passes through the circle 9) coincides with the plane of symmetry 21 of the hand tool, the second plane 19 (passes through the circle 10) parallel to the plane of symmetry 22 of the hand tool, and the third plane Section 17 (passes through circle 8) is parallel to the plane 23 of the processing object. Measuring scales 5, 6 and 7 at the intersection with each other form zones 24, 25, 26, 27, 28 and are made with divisions that allow you to orient the tool within 210-270 degrees.

The base 4 is fixed on the housing 20 of the hand tool (for example, with glue) in the assembled state of the fixing device (installation section 3 is in the grooves of the base 4). In this case, the base 4 is oriented so that the plane 18 of the sphere 1 coincides with the symmetry plane 21 of the hand tool, the second plane 19 is parallel to the plane of symmetry 22 of the hand tool, and the third plane 17 is parallel to the plane 23 of the intended processing object (for example, a wall).

When drilling a wall, a hand tool is installed in accordance with Fig. 4. The perpendicularity of the drill and the wall is set visually along the air bubble 2, which should be in zone 24. During the drilling process, the direction is maintained

by holding the air bubble 2 in zone 24.

When drilling the floor, a hand tool is installed in accordance with Fig.6. The perpendicularity of the drill and the floor is set visually along the air bubble 2, which should be in zone 26. During the drilling process, the direction is maintained by holding the air bubble 2 in zone 26.

When drilling the ceiling, a hand tool is installed in accordance with Fig. 7. The perpendicularity of the drill and ceiling is set visually by an air bubble 2, which should be in zone 25. Its location is controlled by visual alignment of zone 26 with zone 25, which is visible through the liquid of sphere 1. During drilling, the direction is maintained by visually aligning zone 26 with zone 25.

Zones 27 and 28 serve to control the position of the tool when drilling with a hand tool a wall located in a limited space (with a lack of space when you have to turn the tool around).

If necessary, a mobile device for determining the angle of inclination of the object can be used for various tools (grinding tool, grinder, other electric drill). In this case, it is enough to attach only the base 4 to each tool and, if necessary, reinstall the device due to the dovetail connection.

Claims (8)

1. A mobile device for determining the angle of inclination of an object, comprising a body in the form of a sphere filled with liquid with a measuring scale applied on its surface, characterized in that the sphere is completely filled with liquid until only one indestructible indicator element is inside, and the sphere is equipped with a device for securing it on the object, and the measuring scale is made in the form of three spherical measuring tracks on the surface of the sphere, and each measuring track is made on the sphere symmetrically with respect to with respect to its center line formed by a plane passing through the diameter of the sphere, while the measuring tracks are placed on the sphere so that the planes passing through their center line are perpendicular to each other, and the fixing device on the object is made with the possibility of mounting the sphere on the object ensuring that the plane passing through the center line of one of the measuring tracks coincides with one of the planes of symmetry of the object, parallel to the plane passing through the center line of the second measuring track, from the second of the planes of symmetry of the object, and the parallel plane passing through the center line of the third measuring track, with the plane of the processing object, while measuring tracks are made with the possibility of measuring the angle of rotation of the object 210-270 degrees, and the width of the measuring tracks made commensurate with the size of the indicator element. 2. A mobile device for determining the angle of inclination of an object according to claim 1, characterized in that the indicator element is made in the form of an air bubble. 3. A mobile device for determining the angle of inclination of an object according to claim 1, characterized in that the indicator element is made in the form of a ball whose density is less than the density of the liquid that the sphere is filled with. 4. A mobile device for determining the angle of inclination of an object according to claim 1, characterized in that the measuring scales are made on the outer surface of the sphere. 5. A mobile device for determining the angle of inclination of an object according to claim 1, characterized in that the width of the measuring tracks is made equal to the diameter of the indicator element. 6. A mobile device for determining the angle of inclination of an object according to claim 1, characterized in that the sphere is equipped with a fueling element. 7. A mobile device for determining the angle of inclination of an object according to claim 1, characterized in that the fixing device is made integral: from the installation area, fixedly mounted on the sphere, and the base, fixed on the object. 8. A mobile device for determining the angle of inclination of an object according to claims 1 and 7, characterized in that the installation section and the base of the fixing device on the object are made in the form of corresponding parts of a dovetail connection with the possibility of their easy fixation between themselves.