RU166020U1 - PLANE DEVICE - Google Patents

Abstract

1. A device for defining a plane, comprising a base, an adjustment plate connected to the base, a laser plane of the light plane connected to the adjustment plate, and adjusting threaded elements, characterized in that the base and the adjustment plate are located opposite each other, between the base and the adjustment plate placed a laser plotter of the light plane, rigidly connected to the adjustment plate, the base and the adjustment plate are connected by three adjustment threaded threaded elements, each of which is installed with a gap in the corresponding through hole of the adjusting plate, is equipped with a flange axial displacement limiter, made with the possibility of contact with the outer surface of the adjusting plate, and forms a threaded connection with a corresponding guide element made with internal thread and rigidly connected with a base, wherein, contrary to that, between the base and the adjusting plate around each adjusting threaded element forming the threads th connection with the guide element, a compression spring is installed, which provides pressure of the adjustment plate to the flange axial displacement limiter. 2. A device for defining a plane according to claim 1, characterized in that the axes of the three adjusting threaded elements connecting the base and the adjusting plate are equally spaced from each other. 3. A device for defining a plane according to claim 1 or 2, characterized in that two mounting holes are made in the base. 4. A device for defining a plane according to claim 1, characterized in that the base is made

Description

The utility model relates to the field of construction, namely, devices designed to set the plane level, and can be used, for example, when performing repair or finishing work. In the production of construction works, such as leveling and flooring, laying tiles, plastering, cladding, etc., it is necessary to ensure the flatness (evenness) of the surfaces. To set the level of the plane of a vertical or horizontal surface, laser indicators are currently widely used, which make it possible to visualize the level in the form of a light beam or a light plane. To set the level using the light plane, most often one installation of an auxiliary device is required, which reduces the number of technological operations and increases the accuracy of work, because repeated reinstallations of the basic level introduce additional errors. A significant factor in the construction work is the deadlines, in connection with which they strive to use structurally simpler auxiliary devices that can reduce the time for preparatory work and reduce the complexity of technological operations.

Known construction tool for leveling the surface (patent No. RU 2320837 C1, IPC E04G 21/10, E04F 21/00, publ. 03/27/2008), containing a laser indicator of horizontal or vertical, designed to visualize the level in the form of a light beam. The tool is made with four supports for installation on the work surface. On each support clamps are installed with the ability to move along the height of the support and fixation relative to it. On the vertical section of each clamp, a measuring scale is made. The tool contains two guide rails, on which a movable rail rests, on which a rule-rail is fixed between the supports. 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 or horizontalness. However, when moving the device to the next section, a new adjustment of the beam of the laser indicator is required, as a result of which the errors of the reinstallations accumulate, which leads to an increase in the deviation from the flatness of the surface as a whole. At the same time, setting the light level is a rather laborious multi-stage process.

A device for installing level beacons during construction work (patent No. RU 105927 U1, IPC E04G 21/00, publ. 06/27/2011), containing the rule-clamp and the laser level, mounted on the installation angle. The rule is equipped with keys for clamping / unclamping level beacons, water levels for determining verticality and horizontalness. Along the fixed part of the rule, a line has been cut on both sides to control the direction of the laser beam. The laser-level housing is mounted on a magnetic sole to a metal mounting angle, contains two point sources - LEDs, the rays of which are rotated 90 degrees relative to each other. The mounting bracket has an eye for attaching to the building surface. The laser level provides visual control of the flatness of the surfaces being leveled (walls, floor, ceiling), the choice of thickness of plastering. The laser level is used as part of a known device for setting in the form of a beam a horizontal or vertical level, according to which then a vertical or horizontal surface is processed over the entire area, already guided by the water levels on the rule. In the known device provides the possibility of only a slight rotation of the installation angle when it is attached to the surface, there is no possibility of adjusting the laser in height relative to the plane of the installation. At the same time, the laser sets the direction in the form of a beam, which is the basis for setting the instrument at water levels, which complicates the work and reduces accuracy.

A device for marking the surface (patent No. EP 0833021 B1, IPC E04F 21/00, E04G 21/18, G01C 15/00, publ. 08/13/2003), used for marking surfaces, such as walls and ceilings, makes it possible assigning a horizontal or vertical plane along which surface treatment is performed. The device contains a laser source that creates a light plane and is installed at a given distance from the surface to be treated. The device also contains a photoelectric detector located in the housing and allowing to detect a signal from a laser source. The positioning device, as well as the marking device, which carries out the marking on the surface when the photoelectric detector detects a signal from the source, is placed in the same case. The housing is mounted on a telescopic rod, which is held by the operator. The housing is equipped with support rollers for moving along the surface on which it is necessary to apply level-setting marks. When the detector detects a light signal from the source, the marking device is automatically activated. The known device is characterized by high structural complexity, while it includes a large number of electronic components - a photoelectric detector, a positioning device, a marking device, which can cause an increase in the likelihood of device malfunctions.

When performing repair and finishing work in the premises, laser levels are used, which have small dimensions and have the ability to not only mount on a tripod, but also on the floor, as well as the ability to mount on the wall.

Known level (patent No. RU 2146356 C1, IPC G01C 9/20, publ. 10.03.2000), which allows you to set the position of the vertical and horizontal plane and is intended for use both in geodesy and in the repair and decoration work in the premises. The device contains a laser and a device for its installation, which is a plate housing (a plate in the shape of a triangular prism or a circle), equipped with three supporting adjusting screws. Inside the housing along the lateral surface there is a closed channel with sighting windows, which is a liquid level. On the upper surface of the case there is a removable table with a laser mounted on it. Using the support adjusting screws and liquid level control, the upper surface of the device is set to a horizontal position. The laser on the turntable is mounted so that its beam is parallel to the plane of the table. When turning the table around its axis, the laser beam sets the level of the horizontal plane. To set the position of the vertical plane, an additional prefix is used, on which a table with a laser is mounted. However, it should be noted a sufficiently high structural complexity of the known device.

A known device for defining a laser reference plane (patent No. RU 2178546 C1, IPC G01C 5/00, publ. 01.20.2002), designed for the production of work performed during the installation of building structures. The device includes a support element with a base and two side supports, two pairs of pivoting levers, a cylindrical cage in which a laser, a collimator, an electric motor are located, as well as a pentaprism connected to its hollow shaft. When performing work, the axis of rotation of the pentaprism give the required slope. This axis is aligned with the axis of the cylindrical cage. The laser beam deployed by the pentaprism will describe in space the given project plane. The known device provides high accuracy of the construction results, however, it is characterized by high structural complexity, while the exposure of the laser plane using this device requires a high technical skill of a specialist.

Known level (patent No. RU 2343414 C1, IPC G01C 9/00, publ. 10.01.2009), which is a device related to construction and providing the ability to set the plane level of a vertical or horizontal surface during repair or finishing works, in particular, when laying floors, cladding, plastering, etc. A known device designed to set the plane, is proposed as a technical solution (prototype), the closest in combination of essential features to the claimed utility model. The known device contains a laser plotter of the light plane mounted in the housing, which is fixed on a tripod, rigidly connected to the platform. The platform, made in the form of a plate, is installed on the base using the console. The console is made to rotate around its axis and move around the base. The platform is installed with the ability to move along the internal longitudinal sections of the console. Thus, the platform is a plate designed for attaching to it a laser plotter of the light plane and providing the ability to adjust its position relative to the base (i.e., the adjustment plate). The base is made in the form of a ring and mounted on supports made with the possibility of their height adjustment, which makes it possible to adjust the position of the device relative to a horizontal surface. Supports are adjusting threaded elements, for example, screws. The device contains measuring scales: on a tripod (used when processing horizontal surfaces, for example, floors); along the perimeter of the outer section of the base (to control the angle between two adjacent vertical surfaces); along the rectilinear sides of the console (to control the level of “overflow” of vertical surfaces, for example, when they are leveling, plastering). The axis of rotation of the console coincides with the central axis of symmetry of the base, which, in turn, coincides with the central longitudinal axis of symmetry of the laser.

To set the level of the plane when processing horizontal surfaces, for example, when leveling floors, the device is installed in the place where the maximum circular view of the processed horizontal surface is provided. Turn on the laser to project the horizontal light plane. Focusing on the level of the light plane, guide rails are set, between which a solution is applied and along which the rail will slide, leveling the surface between the guides. Similarly, the known device can be used to set the level of the plane of the vertical surface, for example, when leveling the surface of the wall. To do this, the device is installed so that the outer edge of the base is pressed against the wall. Then, by rotating the cantilever relative to the base and moving the platform, the position of the vertical light plane is set, after which the guide rails are installed with spacer units.

The known device provides the ability to accurately set the level of the plane, however, it is characterized by high structural complexity and the need to perform a large number of quotation operations in order to set the laser source, which leads to high complexity of the process.

The technical result, which is achieved by the claimed utility model, is to simplify the design of the device, which will optimize the task of the plane level of the processed surface, namely, to reduce the execution time and reduce the complexity of the process.

To achieve the above technical result, a device for defining a plane is proposed, comprising a base, an adjustment plate connected to the base, a laser light plane builder connected to the adjustment plate, and adjusting threaded elements.

Moreover, according to the claimed utility model, the base and the adjusting plate are located opposite each other. Between the base and the adjustment plate, a laser plotter of the light plane is mounted rigidly connected to the adjustment plate. The base and the adjusting plate are connected by three adjusting threaded elements. Each of the adjusting threaded elements is installed with a gap in the corresponding through hole of the adjusting plate, is equipped with a flange axial displacement stop, made with the possibility of contact with the outer surface of the adjusting plate, and forms a threaded connection with a matching threaded guide element made with an internal thread and rigidly connected to base. The strife between the base and the adjusting plate around each adjusting threaded element forming a threaded connection with the guide element, a compression spring is installed, which provides pressure of the adjusting plate to the flange axial displacement limiter.

The connection of the base and the adjusting plate by means of adjusting threaded elements, each of which is installed with a gap in the corresponding through hole of the adjusting plate and forms a threaded connection with a guide element mating to it, made with an internal thread and rigidly connected to the base, as well as the possibility of pressing the outer surface of the adjusting plates to the flange axial displacement limiter (which each of the adjusting threaded elements is equipped with) with the compression spring installed opposite to the base and the adjusting plate around each adjusting element forming a threaded connection with the guide element allows, as a result of the rotational movement (screwing in or out) of the adjusting threaded elements in the reciprocal guide elements, to change the position of the adjusting plate relative to the base. The use of three adjusting elements is optimal for adjusting the position of the plate, since the position of the plane is determined by three points. The laser plotter of the light plane provides the ability to visualize the level of the plane. Installing a laser plotter of the light plane between the base and the adjustment plate, located opposite each other, provides the most convenient access (from the outer surface of the adjustment plate) to the adjustment elements, allowing quick adjustment. In addition, it should be noted that this arrangement of the laser plotter of the light plane makes it possible to bring it (and hence the light plane) to the base, which is installed on the surface to be treated, which often technologically additionally simplifies the determination of the plane level. A rigid connection of the laser plane of the light plane with the adjusting plate provides the ability to change the position of the laser together with the adjusting plate when unscrewing or screwing the adjusting threaded elements in the guide elements when adjusting the position of the light plane. The inventive device in comparison with the prototype has a simpler construction, due to which it is possible to easily, quickly and accurately set the position of the light plane necessary to set the plane level of the surface to be treated.

In order to optimize the adjustment of the position of the laser plotter of the light plane, the axes of the three adjusting threaded elements connecting the base and the adjusting plate are equidistant from each other, i.e. in plan are located at the vertices of an equilateral triangle. This embodiment allows you to ensure optimal stability of the position of the adjustment plate and reduce the time of exposure of the plane.

In order to provide a more reliable fixation of the position of the device on a horizontal surface, as well as to enable simple and convenient installation on a vertical or inclined surface, two mounting holes are made in the base of the device. For example, it can be mounting eyes.

In order to ensure the possibility, without complicating the design of the device, to further reduce (if necessary) the distance between the light plane and the base surface to be machined, a hole is made in the base of the device to set the plane, the dimensions of which exceed the corresponding dimensions (i.e. length and width) of the laser light the plane.

Graphic materials contain an example of a specific implementation of the claimed technical solution. In FIG. 1 shows a device for defining a plane, the main view, in FIG. 2 is a plan view of FIG. 3 - general view, axonometric projection.

A device for defining a plane comprises a base 1 and an adjustment plate 2 mounted opposite each other. A laser plotter 4 of the light plane is fixed (fixed) to the inner surface of the adjustment plate 2 by means of bolts 3, the light plane of which is aligned parallel to the adjustment plate 2. The laser plotter of the light plane is a linear laser with a beam opening angle of more than 90 degrees. In the adjusting plate 2 there are three through holes 5, the centers of which are equidistant from each other (located at the vertices of an equilateral triangle). Three adjusting threaded elements are installed in the holes 5, for which screws 6 are used. Other threaded elements, for example, bolts, can also be used as adjusting threaded elements. Between the base 1 and the adjusting plate 2 there are three threaded guide elements that are rigidly connected to the base, as in the presented embodiment of the device threaded bushings 7 made with an internal thread are used. The bushings 7 are rigidly connected to the base 1 (for example, pressed), are located in response to the holes 5, while their axis is perpendicular to the base 1 and equidistant from each other. Other elements can be used as guiding elements, in particular, racks in the body of which an internal thread is made. Perhaps another constructive implementation of the guide elements with internal thread, for example, in which they are made at the same time with the base (from a monolithic workpiece). Each screw 6 is inserted (with a gap) into the corresponding hole 5 and screwed into the sleeve 7, thus forming a threaded connection with the sleeve. Around each screw 6 (and, accordingly, around the sleeve 7 into which it is screwed in), a compression spring 8. A spring 8 is mounted in opposition between the base 1 and the adjusting plate 2. The spring is selected so that it provides a reliable clamping of the outer surface over the entire range of adjustments the adjusting plate 2 to the flange limiter displacement, which in this example is the head 9 of the screw 6, the diameter of which exceeds the diameter of the hole 5. The screw head is made with an enlarged upper second part - for easy adjustment. The limiter may also be, for example, a flange made on the rod of the adjusting threaded element. At the base 1 there are two mounting holes 10, which simplify fixing the device on the base surface. At the base 1, a hole 11 is made, the dimensions of which exceed the overall dimensions (in plan: length and width) of the laser plotter body of the light plane 4. The hole 11 is located under the laser builder 4. In the presented example, the hole 11 is made in the form of a rectangle, the dimensions of which are larger by 1 -2 mm of the corresponding dimensions (length and width) of the body of the laser plotter of the light plane 4. The opening 11 allows without further complicating the design of the device to further reduce (if technologically necessary) the distance between the light plane and the base surface to be machined by adjusting the position of the laser builder so that it descends into hole 11.

As a laser builder of the light plane, you can use a laser point source (LED), the beam of which is deployed in the plane, for example, using a pentaprism or a cylindrical lens. Laser plotters of the light plane produced by domestic and foreign companies and widely available on the market, for example, the LG-H635-4-5 laser module manufactured by FTI-Optronic, with a beam opening angle of up to 110 degrees, can be used. The laser source can be powered from the battery or from the mains. The base and the adjusting plate can be made, for example, of a metal alloy or plastic used for body parts.

The inventive device for defining a plane works as follows.

As an example, we consider the process of tiling the surface of a vertical wall, in which the level of the plane of the front surface of the tile is set by the claimed device. The device in assembled form is installed in the corner of the wall opposite from the beginning of laying the tiles. If the tiles begin to be laid from the lower left corner of the wall, then the device is mounted in the upper right corner. When mounted on a vertical wall, it is convenient to fix the device using the mounting eyes 10 on auxiliary elements temporarily installed in the wall. In this case, the base 1 is installed on the base (processed) surface. According to the markup, taking into account the thickness of the tile and the mortar layer, by adjusting (screwing in or out) the adjusting threaded elements (screws 6) in the guide elements (threaded bushings 7), a light plane is set that will set the level of the plane when laying the tiles. When screwing in or out, the position of the flange stop changes. And since, thanks to the springs 8, a power circuit (clamp) of the adjustment plate 2 to the head 9 of the screw 6 is constantly provided, the position of the adjustment plate 2 relative to the base 1 also changes. Together with the adjustment plate 2, the laser builder 4 changes its position relative to the base 1, since it rigidly connected to the adjustment plate 2. The tile is pressed into the cushion of the solution, the excess of which is then removed. Each tile is laid so that the edges of adjacent ribs on the front surface of each tile are located in the light plane. In this case, the edges of adjacent ribs will be highlighted. This controls how each tile is laid. As a result, the front surfaces of all tiles are located in the same plane. Similarly, work is performed when facing a horizontal surface. The control of the lined horizontal surface (in many separate sections) by the water level showed high accuracy of flatness, without “blockages” of the surface. A device for specifying a plane can also be used in the production of plastering, flooring, etc. The author made and tested a prototype device with a range of adjustment of the laser optical axis from 8 to 24 mm from the installation (base) surface.

The inventive device is characterized in comparison with the prototype simpler structural design, which reduces the complexity of setting the plane of the processed surface and reduce the time to complete the work.

Claims (4)

1. A device for defining a plane, comprising a base, an adjustment plate connected to the base, a laser plane of the light plane connected to the adjustment plate, and adjusting threaded elements, characterized in that the base and the adjustment plate are located opposite each other, between the base and the adjustment plate placed a laser plotter of the light plane, rigidly connected to the adjustment plate, the base and the adjustment plate are connected by three adjustment threaded threaded elements, each of which is installed with a gap in the corresponding through hole of the adjusting plate, is equipped with a flange axial displacement limiter, made with the possibility of contact with the outer surface of the adjusting plate, and forms a threaded connection with a corresponding guide element made with internal thread and rigidly connected with a base, wherein, contrary to that, between the base and the adjusting plate around each adjusting threaded element forming the threads th connection with the guide element, a compression spring is installed, which provides pressure of the adjustment plate to the flange axial displacement limiter. 2. A device for defining a plane according to claim 1, characterized in that the axes of the three adjusting threaded elements connecting the base and the adjusting plate are equidistant from each other. 3. A device for defining a plane according to claim 1 or 2, characterized in that two mounting holes are made in the base. 4. A device for defining a plane according to claim 1, characterized in that a hole is made in the base, the dimensions of which exceed the corresponding dimensions of the body of the laser builder of the light plane.

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