RU59669U1 - BUILDING TOOL FOR SURFACE LEVELING - Google Patents

Abstract

The utility model relates to construction tools, namely: to tools for leveling horizontal or vertical surfaces during construction work (plastering surfaces, leveling floors, etc.).

The problem solved by the proposed utility model is to increase ease of use, reduce the complexity of plastering, by simplifying the design of the tool and eliminating the operation of installing level beacons, expanding its functionality.

The problem is solved due to the fact that in the construction tool for leveling the surface, containing a laser indicator of horizontal and / or vertical, designed to visualize in the form of a light beam the level of horizontal and / or vertical and determine the deviation from this level of the treated surface; four supports located at a distance from each other for installation on the treated surface; clamps mounted on each support with the ability to move along the height of the support and fixation relative to it, each clamp contains vertical and external horizontal sections, a vertical scale is made on the vertical section of each clamp; the tool contains two guide rails, each guide rail is mounted on horizontal sections of two corresponding adjacent clamps, a movable rail is mounted on the guide rails installed with the possibility of moving along them, a rail is fixed between the supports on a movable rail, usually oriented along the movable rail, working longitudinal end the surface of the rule-rail is turned towards the surface to be treated; the laser indicator is installed with the possibility of projecting a light beam through the appropriate divisions of the measuring scales of two adjacent clamps along the desired level of verticality and / or horizontalness. 1 n.p.f., 6 Fig.

Description

The utility model relates to construction tools, namely: to tools for leveling horizontal or vertical surfaces during construction work (plastering surfaces, leveling floors, etc.).

A device for the formation of level beacons from a mortar according to the patent of the Russian Federation No. 2166041, selected for the prototype. The known device includes a tripod with a clip, a geodetic rail equipped with a guide pipe with a leveling plate, which is mounted with the possibility of movement in the longitudinal slot and fixation on the geodetic rail by means of a thrust clip with a stopper. The device is equipped with a guide element that is installed inside the guide pipe, and the geodetic rail is placed inside the guide element, on the side surface of the guide element, diametrically arranged vertical grooves are made on a part of its length, and the geodetic rail is rigidly connected by screws with a thrust holder, and the screws are placed in vertical the grooves and the stop are interfaced with the guide element, a level is set on the top of the geodetic rail.

A disadvantage of the known device is the complexity of its design, which causes inconvenience in operation, an increase in the complexity in the production of work associated with the formation of level beacons.

The known device has limited functionality, due to the fact that with its help only horizontal surfaces are aligned, while the known device only allows you to set level beacons, and not to directly level the surface.

The problem solved by the proposed utility model is to increase ease of use, reduce the complexity of plastering, by simplifying the design of the tool and eliminating the operation of installing level beacons, expanding its functionality.

The problem is solved due to the fact that in a construction tool for leveling the surface containing a laser horizontal indicator and / or

verticality, designed to visualize in the form of a light beam the level of horizontality and / or verticality and determine the magnitude of the deviation from this level of the treated surface; four supports located at a distance from each other for installation on the treated surface; clamps mounted on each support with the ability to move along the height of the support and fixation relative to it, each clamp contains vertical and external horizontal sections, a vertical scale is made on the vertical section of each clamp; the tool contains two guide rails, each guide rail is mounted on horizontal sections of two corresponding adjacent clamps, a movable rail is mounted on the guide rails installed with the possibility of moving along them, a rail is fixed between the supports on a movable rail, usually oriented along the movable rail, working longitudinal end the surface of the rule-rail is turned towards the surface to be treated; a laser indicator is installed between the supports with the possibility of projecting a light beam through the appropriate divisions of the measuring scales of two adjacent clamps along the required level of verticality and / or horizontalness.

The inventive utility model is illustrated by drawings.

Figure 1 shows the inventive tool.

Figure 2 shows a top view of the inventive tool.

Figure 3 and figure 4 shows a diagram of the installation of the tool in its original position before starting work.

Figure 5 shows the support in the form of a tripod with a clip mounted on it.

Figure 6 shows a phased installation diagram of the tool when working with him.

The tool contains a laser indicator 1 horizontal and / or vertical, designed to visualize the level of horizontal and / or vertical. As a laser indicator 1, the RIDGID laser level model GYRO II (Ridge Tool Company) can be used. The laser indicator 1 emits a laser beam, which is visualized as a light line. The device settings allow you to form alternately or simultaneously a vertical light line or horizontal. This line is a basic vertical or horizontal line, relative to which a deviation from the verticality and / or horizontalness of the surface being machined is established.

The inventive tool contains four supports 2 mounted on the work surface 3. Support 2 can be made in any way

for example, in the form of a tripod (figure 5) or in the form of an element containing two inclined racks 4 with a horizontal section 5 between them.

On each support 2, with the possibility of changing the position along the height of the tripod, a movable clamp 6. A movement of the clamps 6 relative to the supports 2 is necessary to change the position of the clamp 6 relative to the surface 3. Each clamp 6 has a vertical section 7 and a horizontal section 8. On the vertical section 7 of each clamp Measuring scale 9 is applied.

When the support 2 is made in the form of a tripod (Fig. 5), the clamp 6 is installed through an opening made in the vertical section 7 on one of the legs 10 of the support 2. The position of the clamp 6 is fixed relative to the support 2 (tripod), for example, by means of a screw 11 installed in the through hole 12, made on the vertical portion 7 of the clamp 6. On the inner surface of the hole 12 is a thread that allows you to tighten the screw 11 and fix the position of the clamp 6 relative to the support 2.

If the support 2 will be made in the form of an element containing two inclined racks 4 with a horizontal section 5 between them, the clamp 6 is installed in the through slot made in the horizontal section 5 of the support. Regarding the support 2, the clamp 6 is fixed by a fastening element, for example, a screw 14 mounted in a through hole (not shown in the drawing), made on a horizontal section 5 of the support 2.

It is advisable to install the clamps 6 and apply the measuring scales 9 on them so that the scales 9 are parallel to each other, then the same divisions on the measuring scales 9 of the clamps 6 will equally characterize the shortest distance from this division to the level relative to which this distance is measured.

On the horizontal sections 8 of two adjacent clamps, two guide rails 15 are installed, it is advisable that the rails 15 are parallel to each other. The number of supports is at least four in order to ensure reliable installation of the guide rails 15, the reliability of the installation of the guide rails 15 can be ensured only when each rail will have at least two support points, in our case, each guide rail 15 is based on horizontal sections of two clamps 6 mounted on two supports 2 located at a distance from each other.

On the guide rails 15 a movable rail 16 is installed, having the possibility of unimpeded movement along the guide rails 15. The inventive tool contains a rail-rule 17, which is fixedly connected with the movable

rail 16 and facing the surface 3. The rail rule 17 is oriented along the rail 7 and installed on it between the supports 2 and, respectively, between the clamps 6, so as to be able to freely move together with the rail 7 along the surface 3.

The horizontal portion 8 of the clip 6 has a profile close to the C-shaped, so as to ensure coverage of the guide rail 15 and its retention relative to the clamp 6. The guide rail 15 has a tee profile, which is the most optimal, because allows, on the one hand, to install rail 15 in terminal 6, and on the other hand allows to install mobile rail 16 on rail 15. The presence of rail 15 of two shelves makes it possible to easily fix (if necessary) rail 15 with respect to terminal 6, and allows known technical means to ensure the retention of the rack 16 relative to the rack 15 in the event that the alignment of the vertical surface and the rail 16 will be oriented along the vertical surface (for example, to ensure the coverage of the protrusions on rail 16, rail 15 at the junction). Rule 17 is connected to rail 16 by means of fixtures 18, on the one hand connected to rail 16, and on the other hand, to rule 17.

The inventive device operates as follows.

At the first stage of work, if it is necessary to level the horizontal surface (Fig. 1), support 2 is installed on surface 3. Point X is determined on surface 3 — the highest point on surface 3 (this point can be determined in any way, for example, by measuring the distance from surface 3 to the laser beam 19). At the second stage of work, the clamps 6 are moved upward along the support 2 to such a distance that the initial division on the scales 5 is at the same level with point X (i.e., that the initial divisions on the scales 5 and point X lie on the same plane). Install the laser indicator 1 and configure it to form a horizontal light line (laser beam) 19 passing through the same divisions on the measuring scales 9 of the clamps 6. Fix (possibly - just visually mark) the divisions on the scales 5, through which the light beam 15 located at a height of “a” from point “X”. The solution is applied to the surface 3 on the area between the supports 2 (Fig. 2) approximately by the length of the rails 15. Moving the rail 16 along the guide rails 15, level the surface 3. Since the position of rule 17 is clearly fixed relative to surface 3, so that the surface of the rule 17 is at a horizontal level relative to surface 3, therefore, filling the space between the surface of rule 17,

facing the surface 3, and the surface 3 itself, the solution will form a surface that will be strictly horizontal. The surface area thus aligned is determined approximately by the length — the length of the guide rails 15, and by the width — the length of rule 17.

To align the next section of surface 3, supports 2 are rearranged to a new section. The laser indicator 1 is mounted on the surface 3 and the horizontal laser beam 19 is adjusted so that it passes through the initial divisions located at a height “a” from the point “X” on the measuring scales 9. Next, level the surface 3 with the above method. Thus, the alignment of the entire surface 3 is clearly on a horizontal level.

Similarly, the alignment of vertical surfaces.

In the inventive tool, it is possible to change the rule 17, you can choose the rule 17 of the most convenient for processing surface 3 of length.

The inventive design is mobile, reliable, simple and maintainable. You can replace any tool component without damaging the remaining elements.

The inventive tool is simple in design, makes it easy to align any (horizontal or vertical) surface with minimal cost. The simplicity of the design of the tool makes it easy to use. The inventive tool provides ease of formation and control of the verticality and / or horizontalness of the working surface, the stability of the level of verticality and / or horizontalness.

The expansion of the functionality of the claimed tool in comparison with the prototype is due to the fact that with its help it is possible to level surfaces both horizontal and vertical without the preliminary operation of installing level beacons.

Claims (1)

A construction tool for leveling the surface, containing a laser indicator of horizontal and / or vertical, designed to visualize in the form of a light beam the level of horizontal and / or vertical and determine the magnitude of the deviation from this level of the treated surface; four supports located at a distance from each other for installation on the treated surface; clamps mounted on each support with the ability to move along the height of the support and fixation relative to it, each clamp contains vertical and external horizontal sections, a vertical scale is made on the vertical section of each clamp; the tool contains two guide rails, each guide rail is mounted on horizontal sections of two corresponding adjacent clamps, a movable rail is mounted on the guide rails installed with the possibility of moving along them, a rail is fixed between the supports on a movable rail, usually oriented along the movable rail, working longitudinal end the surface of the rule-rail is turned towards the surface to be treated; the laser indicator is installed with the possibility of projecting a light beam through the appropriate divisions of the measuring scales of two adjacent clamps along the desired level of verticality and / or horizontalness.