RU108836U1 - LASER RANGEFINDER - Google Patents

Abstract

 1. A laser range finder, comprising a module for measuring distance, area, volume, the optical axis of which is fixed with respect to the mounting point on a tripod and a reference point of distance, including a signal processing circuit, a microprocessor, a storage device, a control panel, a display, a battery, characterized in that it contains an additional measuring module equipped with a power system, a control system associated with the module for measuring distance, area, volume through the interface, and the additional measuring mode It is installed with the possibility of replacement. ! 2. The laser rangefinder according to claim 1, characterized in that the additional measuring module is a reference axis marking module (leveling module), comprising a self-aligning laser emitting unit, the optical axis of which is oriented relative to the optical axis of the distance, area, volume measuring module . ! 3. The laser rangefinder according to claim 1, characterized in that the additional measuring module is a reference axis marking module (leveling module), comprising a projection element for outputting an image, an electronic block for correcting the position of the projected image. !four. The laser rangefinder according to claim 1, characterized in that the additional measuring module is a module for determining the position in space of a module for measuring distance, area, volume, containing sensors for measuring vertical and horizontal angles. ! 5. The laser rangefinder according to claim 1, characterized in that the additional measuring module is a laser radiation detector module�

Description

The utility model relates to measuring instruments used in the field of construction. In particular, to devices with advanced functions.

Laser rangefinders (electron-optical modules) are known, which are independent laser devices - a modern measuring tool that replaced the usual roulette, which allows high-precision measurements of objects both indoors and outdoors, to measure distances.

See at www.gsi2000.ru

However, the known laser rangefinders represent a single module whose functions are limited by the design capabilities of the laser rangefinder.

The closest in technical essence and the achieved effect and selected as the closest analogue is a professional laser range finder. Leica Disto D3a BT, containing a module for measuring distance, area, volume, the optical axis of which is fixed with respect to the mounting point on a tripod and the reference point of distance, including a signal processing circuit, microprocessor, storage device, control panel, display, battery. See website: http: // www.redbay.ru/product/lazernyj-dalnomer-ruletka-leica-disto-d3a-bt/

The specified known laser range finder allows you to measure distances, calculate the area, volume, Pythagoras function - the calculation of hard-to-reach areas.

However, the known laser range finder is a single module, the functionality of which is limited by its design.

The objective of this utility model is to create a multifunctional device, convenient to use, consisting of modules, the acquisition of which, depending on the tasks facing the device, does not require special efforts and costs, which ensures an increase in its operational qualities.

The technical result that allows us to solve the problem is to create a laser rangefinder design, which through the interface is combined with an additional measuring module, which is installed with the possibility of replacement.

In this case, an additional measuring module, as an option, may be a leveling module; as an option, it can be a leveling module combined with a projection element; as an option, it can be a module for determining the position in space of a module for measuring distance, area, volume, containing sensors for measuring vertical and horizontal angles, as an option, it can be a module for a laser radiation detector.

The problem is achieved in that in the known laser range finder containing a module for measuring distance, area, volume, the optical axis of which is fixed with respect to the mounting point on a tripod and a reference point of distance, including a signal processing circuit, a microprocessor, a storage device, a control panel, a display , the battery, according to the utility model, it contains an additional measuring module equipped with a power system, a control system associated with a module for measuring distance, area, volume h Res interface than at an additional measuring unit is mounted for replacement.

The additional measuring module may be a reference axis marking module (leveling module), containing a self-aligning laser emitting unit, whose optical axis is oriented relative to the optical axis of the distance, area, and volume measuring module.

The additional measuring module may be a reference axis marking module (leveling module) containing a projection element for outputting an image, an electronic unit for correcting the position of the projected image.

The additional measuring module may be a module for determining the position in space of a module for measuring distance, area, volume, containing sensors for measuring vertical and horizontal angles.

The additional measuring module may be a laser radiation detector module comprising a laser radiation receiver.

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

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

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

The proposed set of essential features informs the claimed laser rangefinder of new properties that allow solving the task, namely the creation of a multifunctional device that is convenient to use, consisting of modules, the acquisition and set of which, depending on the tasks facing the device, does not require special effort and cost, which provides an increase in its performance.

At the same time, it remains possible to work the module for measuring distance, area, volume and an additional measuring module in stand-alone mode.

The supply of a laser rangefinder with an additional measuring module expands the functionality of the device and improves its performance.

The supply of an additional measuring module with a power system, a control system associated with a module for measuring distance, area, volume via the interface allows you to create a universal device in which, in addition to the function of measuring distance, area, volume, characteristic of laser rangefinders, there are additional functions determined by the accessories of the additional measuring module, which improves the performance of the device. In addition, this allows, if necessary, to use the modules offline.

The installation of an additional measuring module with the possibility of replacing it with another increases the usability of the device as a whole, increases its operational qualities to perform a wide variety of tasks.

The implementation of an additional measuring module in the form of a reference axis marking module (leveling module) containing a self-aligning laser emitting unit, the optical axis of which is oriented relative to the optical axis of the distance, area, volume measuring module allows you to create a universal device in which, in addition to distance measurement functions, determining the tilt angles, calculating the area, volume characteristic of laser rangefinders, there is a function for marking horizontal and vertical axes, which also improves the performance of the device.

The implementation of an additional measuring module in the form of a reference axis marking module (leveling module) containing a projection element for outputting an image, an electronic block for correcting the position of the projected image allows you to replace the laser emitting unit, which is difficult to manufacture and self-aligning, to simplify and reduce the cost of the design of the leveling module and respectively, the device as a whole and at the same time improve the performance of the device.

The implementation of an additional measuring module in the form of a module for determining the position in space of a module for measuring distance, area, volume, containing sensors for measuring vertical and horizontal angles allows you to create a device that, in addition to the functions inherent in a laser rangefinder, performs an additional function in the form of determining the distance between remote points, which improves the performance of the device as a whole.

The implementation of an additional measuring module in the form of a laser radiation detector module containing a laser radiation detector allows you to create a device with which you can measure in conjunction with a laser level without a measuring rod, which increases the usability of the device and thereby improves the overall performance of the device.

The proposed utility model is illustrated by drawings:

Figure 1 shows a block diagram of a laser rangefinder; Figure 2 shows a variant of the laser rangefinder with an additional measuring module in the form of a leveling module; Figure 3 shows a variant of the laser rangefinder with an additional measuring module in the form of a module for determining the position in space of the main module figure 4 presents a variant of the laser rangefinder with an additional measuring module in the form of a module of a laser radiation detector

The laser range finder contains a module 1 for measuring distance, area, volume, the optical axis of which is fixed with respect to the mounting point on a tripod and the reference point of distance, including a signal processing circuit 2, microprocessor 3, memory device 4, control panel 5, display 6, battery 7 , an additional measuring module 8, equipped with a power supply system 9, a control system 10, connected to the module 1 for measuring distance, area, volume through the interface 11, wherein the additional measuring module 8 is installed with replacement feature.

The additional measuring module 8 may be a leveling module containing a self-aligning laser emitting unit, the optical axis of which is oriented relative to the optical axis of the module 1 for measuring distance, area, volume.

The additional measuring module 8 may be a leveling module containing a projection element and an electronic block for correcting the position of the projected image.

The additional measuring module 8 may be a module for determining the position in the space of module 1, containing sensors for measuring vertical and horizontal angles.

The additional measuring module 8 may be a laser radiation detector module comprising a laser radiation receiver.

Attaching an additional measuring module 8 to module 1 is carried out through the use of a universal quick-detachable mount.

Laser range finder is used as follows:

In the marking mode of the reference axes with a predetermined interval (see Fig. 2), a leveling module is attached to module 1, a button is connected that connects the control system 10 via interface 11 to microprocessor 3, a signal processing circuit 2, a memory device 4, a control panel 5, display 6, battery 7. The microprocessor 3 gives a command to control module 1 measuring the distance, area and volume to enable the correction of the reference point of the distance from the axis of sight of the leveling module 8 and the axis of attachment to the tripod. After that, they begin to carry out operations for marking the reference axes with a specified interval, which are inherent in the laser rangefinder and level.

When working on determining the distance between two remote points, module 1 for determining the position in space is attached to module 1 (see Fig. 3), through the control panel 5, a command is given to turn on module 8 for determining the position in space. The distance to the first point is determined by module 1, while the signals from the sensors for measuring vertical and horizontal angles through the control system 10 and interface 11 are sent to the microprocessor 3 and stored in the device 4, then the parameters of the second point are determined, after which the module 1 calculates the distance between these points.

In the case of marking work with an additional module in the form of a laser radiation detector, through the control panel 5 give the command to turn on module 8 (see figure 4), when passing through the laser beam detector from the laser level, which can be used in combination, the signal through the control system 10 and the interface 11 is supplied to the microprocessor 3, which gives the command module 1 to measure the distance.

The proposed laser rangefinder has a compact form, convenient overall dimensions, easy to operate, provides many measuring functions with high accuracy, universal, reduces labor costs for measuring operations, has high performance.

Claims (5)

1. A laser range finder, comprising a module for measuring distance, area, volume, the optical axis of which is fixed with respect to the mounting point on a tripod and a reference point of distance, including a signal processing circuit, a microprocessor, a storage device, a control panel, a display, a battery, characterized in that it contains an additional measuring module equipped with a power system, a control system associated with the module for measuring distance, area, volume through the interface, and the additional measuring mode It is installed with the possibility of replacement. 2. The laser rangefinder according to claim 1, characterized in that the additional measuring module is a reference axis marking module (leveling module), comprising a self-aligning laser emitting unit, the optical axis of which is oriented relative to the optical axis of the distance, area, volume measuring module . 3. The laser rangefinder according to claim 1, characterized in that the additional measuring module is a reference axis marking module (leveling module), comprising a projection element for outputting an image, an electronic block for correcting the position of the projected image. 4. The laser rangefinder according to claim 1, characterized in that the additional measuring module is a module for determining the position in space of a module for measuring distance, area, volume, containing sensors for measuring vertical and horizontal angles. 5. The laser range finder according to claim 1, characterized in that the additional measuring module is a laser radiation detector module comprising a laser radiation receiver.