RU103185U1 - LASER LEVEL - Google Patents

Abstract

 A laser level containing a self-leveling platform with laser radiation sources installed on it, prisms for the decomposition of laser beams into a plane and a laser plummet; a power and control system, a mount on a tripod, through the center of which the optical axis of the laser plummet passes, characterized in that the laser radiation sources, prisms for decomposing the laser beams into a plane are selected into at least one emitting module, equipped with a housing, inside of which a mechanism for precise horizontal level installation, an additional power and control system, an additional self-leveling platform for installing laser radiation sources and prisms for beam decomposition are installed laser beam in a plane, and the laser plummet with a self-leveling platform, the power and control system and the mount on a tripod are allocated to a mounting module equipped with a housing, wherein the housing of at least one radiating module and the housing of the mounting module are configured to connect the radiating module with a mounting module and with the possibility of connection with at least one additional radiating module.

Description

The utility model relates to the field of geodetic instrument engineering, in particular to laser devices for constructing planes, which are intended for alignment in construction, during the installation of technical equipment in mechanical engineering, as well as in other areas of science and technology where the use of a light plane and the possibility of transfer marks in horizontal and vertical planes.

Known laser level CrossLiner 2 Pocket, containing sources of laser radiation, prisms of the decomposition of laser beams into a plane, self-leveling suspension compensator, providing the construction of a horizontal and vertical laser reference plane. See website:

However, the well-known laser level allows you to build only one vertical and horizontal plane and cannot be used when carrying out work on transferring marks between walls.

The closest in technical essence and the achieved effect to the claimed laser level and selected as a prototype is a laser level containing a self-leveling platform with laser sources installed on it, prisms for the decomposition of laser beams into a plane and a laser plummet, a power and control system, an attachment point to a tripod through the center of which passes the optical axis of the laser plummet, placed inside a common housing.

See the website: - NEDO CrossLiner 6s Laser Level

A disadvantage of the known device is that all complex expensive components included in the laser level are rigidly interconnected and installed in a single housing without the possibility of separation into functional complementary modules, which does not allow to complete the device depending on the tasks for which it will be used . At the same time, the well-known laser level is structurally complex and, as a result, has a high cost price, in addition, it has significant overall dimensions and high weight.

The objective of the proposed utility model is to create a multifunctional device that is convenient to use, consisting of modules, the acquisition and set of which, depending on the purpose for which the use of a laser level is required, does not require special efforts and costs, which ensures an increase in its operational qualities.

In addition, the objective of the proposed utility model is to expand the arsenal of technical means that ensure the construction of several planes and their location relative to each other.

The technical result that allows to solve this problem is the separation of the device into at least one radiating module and one mounting module, configured to connect both to each other and to connect the radiating modules to each other, the number of which is determined by the set of tasks .

The task is achieved by the fact that in the well-known laser level, containing a self-leveling platform with installed sources of laser radiation, prisms of the decomposition of laser beams into a plane and a laser plummet; a power and control system, the mount on a tripod through the center of which the optical axis of the laser plummet passes, according to the invention, laser radiation sources, prisms for decomposing laser beams into a plane are allocated to at least one emitting module equipped with a housing, inside which an additional precise horizontal level installations, additional power and control system, additional self-leveling platform for installing laser radiation sources and prisms for beam decomposition laser into a plane, and the laser plummet with a self-leveling platform, the power and control system and the mount on a tripod are allocated to a mounting module provided with a housing, the housing of at least one radiating module and the housing of the mounting module are configured to connect the radiating module to the mounting module and with the possibility of connection with at least one additional radiating module.

Studies on patent and scientific and technical sources of information indicate that the proposed laser level is not known, and, therefore, meets the criterion of "novelty."

The proposed laser level can be manufactured at any enterprise specializing in this industry. this requires well-known materials and standard equipment widely manufactured by domestic and foreign industry.

Thus, the inventive laser level meets the criterion of "industrial applicability".

The selection of laser radiation sources, prisms of the decomposition of laser beams into a plane into at least one emitting module, equipped with a housing, inside which an additional mechanism for precise horizontal level installation, an additional power and control system, an additional self-leveling platform for installing selected laser sources and prisms of the expansion of laser beams in a plane allows you to create a module that can be widely used as a standalone device and as a complement If necessary, it is necessary to expand the tasks for the solution of which the laser level is intended, which increases the operational qualities of the laser level and expands its functional capabilities.

Separation of a laser plummet with a self-leveling platform, a power and control system, and a tripod mount unit into a mounting module equipped with a separate housing also allows you to create a module that can be used as a stand-alone device and as a part of a laser level kit, which also improves performance laser level, expands its functionality.

The implementation of the housing of at least one emitting module and the housing of the mounting module with the possibility of connecting the radiating module with the mounting module and with the ability to connect with at least one additional radiating module, allows effortlessly and costly to complete the laser level with those features that required for a specific list of works, which significantly increases the operational qualities of the laser level, allows you to change its dimensions, weight and cost.

Thus, the set of essential features of the proposed laser level allows you to achieve the claimed technical result, namely the separation of the laser level into at least one radiating module and one mounting module, made with the possibility of connection as with each other, and with the possibility of connecting radiating modules among themselves, the number of which is determined by the set of tasks to be solved and, therefore, to solve the problem - improving the performance of the laser level.

The proposed utility model is illustrated by drawings:

Figure 1 presents a General view of the laser level in projection with four emitting modules,

Figure 2 is a bottom view,

Figure 3 presents a General view of the laser level in the projection with one emitting module with a partial representation of parts and assemblies inside the modules;

Figure 4 and figure 5 presents a General view of the laser level in the projection with two emitting modules with different options for the location of the emitting modules relative to each other and relative to the mounting module.

The laser level contains a platform 1 with installed on it sources of laser radiation 2, prisms 3 of the decomposition of the laser beams into a plane and a laser plummet 4; power supply and control system 5; mount 6 on a tripod through the center of which passes the optical axis of the laser plummet 4; laser radiation sources 2, prisms 3 for decomposing laser beams into a plane are allocated to at least one emitting module 7, provided with a housing 8, inside which an additional mechanism for fine horizontal level installation, an additional power and control system 10, and an additional self-leveling platform 11 are installed for installing sources of laser radiation 2 and prisms 3 of the decomposition of laser beams in a plane, and a laser plummet 4 with a self-leveling platform 1, power supply and control system 5 and mount unit 6 allocated to the mounting module 12, provided with a housing 13, wherein the housing 8 of at least one radiating module 7 and the housing 13 of the mounting module 12 are configured to connect the radiating module 7 to the mounting module 12 and can be connected to at least one additional radiating module.

The laser level is used as follows: in the alignment mode for marking orthogonal marks in the vertical and horizontal planes, as shown in Fig. 4, the mounting module 12 is mounted on a tripod, two emitting modules 7 are orthogonally mounted on the mounting module 12 and after turning on the power by the mechanism 9 precise settings of the horizontal level combine the horizontal light planes of the emitting blocks, after which markup works are performed.

In the breakdown mode for transferring marks between opposite walls, the mounting module 12 is mounted on a tripod, two emitting modules 7 are mounted on the mounting module, as shown in Fig. 5 and after power is turned on, horizontal light emitting planes are aligned with the horizontal level adjustment mechanism 9 modules 7, after which they carry out marking work.

In the case of installing four emitting modules 7 on the mounting module 12, as shown in figure 1, it is possible to obtain a full circular scan of the horizontal and vertical light plane sufficient to carry out all kinds of work on marking the surface.

The proposed design of the laser level allows the separate use of both the emitting modules 7 and the mounting module 12.

So, if it is necessary to transfer the marking point from the floor to the ceiling, it is enough to install only the mounting module 12 on the tripod, which in this embodiment performs the functions of a laser plummet.

If it is necessary to build a vertical and horizontal plane, it is enough to install one emitting module 7 on the surface.

Claims (1)

A laser level containing a self-leveling platform with laser radiation sources installed on it, prisms for the decomposition of laser beams into a plane and a laser plummet; a power and control system, a mount on a tripod, through the center of which the optical axis of the laser plummet passes, characterized in that the laser radiation sources, prisms for decomposing the laser beams into a plane are selected into at least one emitting module, equipped with a housing, inside of which a mechanism for precise installation of the horizontal level, an additional power supply and control system, an additional self-leveling platform for installing laser radiation sources and prisms for beam decomposition are installed laser beam in a plane, and the laser plummet with a self-leveling platform, the power and control system and the mount on a tripod are allocated to a mounting module equipped with a housing, wherein the housing of at least one radiating module and the housing of the mounting module are configured to connect the radiating module with a mounting module and with the possibility of connection with at least one additional radiating module.