CN108151659A - A kind of measuring device - Google Patents

Abstract

The present invention provides a kind of measuring device, including：Tower box, height gauge, broad-ruler, wireless distances sensor and display；Multistage retractable structure is provided in tower box；The bottom of height gauge is fixed on the most upper level retractable structure of tower box, and top is stretched out from the top of tower box；The first active rail is provided on height gauge；Broad-ruler is arranged on the top of tower box and vertical with the extending direction of height gauge；The second active rail is provided on broad-ruler；Wireless distances sensor is threaded through in the first active rail and the second active rail；Wireless distances sensor is connect by the one end of flexible connector respectively with the first active rail and the second active rail；The data of measurement are sent to display by wireless signal and shown by wireless distances sensor.Quickly and efficiently the sectional dimension of the high-altitude beam in building structure can be measured using the present invention, reading is fast, precision is high；Both manpower and cost are saved, while also saves the time, can also reduce the operating risk of testing staff.

Description

a measuring device

technical field

The present application relates to the technical field of engineering structure measurement, in particular to a measuring device for measuring the cross-sectional dimension of high-altitude beams.

Background technique

In the detection of building structures, the cross-sectional size detection of components is a routine detection item. Usually, the beam members in the building structure are generally more than 3 meters from the ground, and some even reach 5 to 6 meters. A high-altitude beam with a height of about 3 meters can usually be directly measured with a steel tape by standing on a ladder. A high-altitude beam with a height of 4 to 5 meters needs to be directly measured by setting up two layers of movable scaffolding. The detection of high-altitude beams requires high-altitude lift trucks for direct measurement. Therefore, it can be seen that the cross-sectional dimension detection of all components is required for the frame structure with missing drawings. The cross-sectional dimension measurement methods used for high-altitude beams in the prior art are generally time-consuming and laborious, and some may not be implemented due to site conditions.

In recent years, non-contact measurement methods can also be used in the prior art to measure the cross-sectional dimensions of the above-mentioned high-altitude beams. For example, a total station or a laser rangefinder can be used to measure several points of the high-altitude beams. Positioning, and then converted to the cross-sectional size of the beam. However, due to the need to use a total station in the above-mentioned measurement method, it is often affected by decorations such as ceiling decoration, and cannot find a suitable angle for measurement. The scope of use is relatively limited, and it is also time-consuming; The laser rangefinder uses the triangular relationship for measurement and calculation, rather than direct measurement, so the error of the measurement result is relatively large.

Contents of the invention

In view of this, the present invention provides a measuring device, which can quickly and effectively measure the section size of the high-altitude beam in the building structure, with fast reading and high precision; it not only saves manpower and cost, but also saves time , and it can also greatly reduce the operational risk of testing personnel.

Technical scheme of the present invention is specifically realized like this:

A measuring device, comprising: a tower box, a height gauge, a width gauge, a wireless distance sensor and a display;

A multi-stage retractable structure is arranged in the tower box;

The bottom of the height gauge is fixed on the uppermost retractable structure of the tower box, the top of the height gauge stretches out from the top of the tower box, and the extension direction of the height gauge is in line with the tower box The same extension direction; the height gauge is provided with a first movable rail;

The width ruler is arranged on the top of the tower box and is perpendicular to the extension direction of the height ruler; the width ruler is provided with a second movable rail;

The wireless distance sensor is passed through the first movable rail and the second movable rail, and the height gauge and the width gauge are connected together; the wireless distance sensor can be moved along the first movable rail and the second movable rail. The rail slides; the wireless distance sensor is connected to one end of the first movable rail through a first elastic connector, and is connected to one end of the second movable rail through a second elastic connector;

The wireless distance sensor sends the measured data to the display through wireless signals for display.

Preferably, both the height scale and the width scale are provided with scales.

Preferably, the display is a digital display.

Preferably, the tower box is a telescopic hollow cylindrical rod.

As can be seen above, in the measuring device of the present invention, since the tower box is provided with a multi-stage retractable structure, the length of the above-mentioned measuring device can be adjusted freely, so that the height ruler and the width ruler are abutted against the high-altitude beam to be measured. Then apply horizontal force and vertical force respectively to pull the height gauge and width gauge apart, and transmit the distance between the wireless distance sensor and the outer end of the width gauge and the distance from the top of the height gauge to the display for display through wireless signals . The surveyor only needs to check the display information on the monitor to know the data information of the high-altitude beam to be measured (for example, data such as the height and width of the high-altitude beam). After the measurement has been concluded, the measuring device can be retracted. After the height ruler and the width ruler on the measuring device leave the high-altitude beam to be measured, the wireless distance sensor will return to its initial position before the measurement under the pulling force of the elastic connector (for example, the first movable rail and the second movable rail). One end of the two movable rails).

Therefore, using the above-mentioned measuring device for high-altitude beams, the cross-sectional dimensions of high-altitude beams that are far away from the measurement site can be directly measured quickly and effectively; moreover, the measuring device has fast readings, high precision, and is also very convenient to operate; It not only saves manpower and cost, but also saves time, and can also greatly reduce the operational risk of testing personnel. In addition, the above measuring device in the present invention has a simple structure and is easy to carry and disassemble.

Description of drawings

FIG. 1 is a schematic structural diagram of a measuring device in an embodiment of the present invention.

Detailed ways

In order to make the technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a measuring device in an embodiment of the present invention. As shown in Figure 1, the measuring device in the embodiment of the present invention comprises: tower box 11, height ruler 12, width ruler 13, wireless distance sensor 14 and display 15;

The tower box 11 is provided with a multi-stage retractable structure;

The bottom of described height gauge 12 is fixed on the uppermost stage telescopic structure of described tower box 11, and the top of described height gauge 12 stretches out from the top of described tower box 11, and the extension direction of described height gauge 12 It is the same as the extension direction of the tower box 11; the height gauge 12 is provided with a first movable rail 21;

The width ruler 13 is arranged on the top of the tower box 11 and is perpendicular to the extension direction of the height ruler 12; the width ruler 13 is provided with a second movable rail 31;

The wireless distance sensor 14 is passed through the first movable rail 21 and the second movable rail 31, and the height gauge 12 and the width gauge 13 are connected together; the wireless distance sensor 14 can be moved along the first The movable rail 21 and the second movable rail 31 slide; the wireless distance sensor 14 is connected with one end of the first movable rail 21 by the first elastic connector 16, and connected with the second movable rail by the second elastic connector 17 One end of 31 is connected;

The wireless distance sensor 14 sends the measured data to the display 15 via wireless signals for display.

According to the structure of the above-mentioned measuring device, when it is necessary to measure the cross-sectional size of the high-altitude beam 10 in the building structure, the length of the above-mentioned measuring device can be adjusted through the multi-stage retractable structure in the tower box, and the width ruler can be abutted on the The bottom of the high-altitude beam 10 to be measured, and the height gauge is abutted against one side of the high-altitude beam 10 to be measured, and then respectively apply a horizontal force and a vertical force, so that the wireless distance sensor moves along the first movable rail and the second movable rail. The two movable rails slide until the outer end of the width ruler stretches out from the other side of the high-altitude beam 10 to be measured, and the top of the height ruler stretches out from the top of the high-altitude beam 10 to be measured. At this time, the wireless distance sensor can transmit the distance to the outer end of the width gauge and the distance to the top of the height gauge through wireless signals to the display for display. The surveyor only needs to check the displayed information on the monitor to know the data information of the high-altitude beam 10 to be measured (for example, data such as the height and width of the high-altitude beam 10 ). Therefore, using the above-mentioned measuring device, it is possible to directly measure the section size of the high-altitude beam that is far away from the measuring place; moreover, the reading is fast, the precision is high, and the operation is also very convenient, which not only saves manpower, but also saves time, and It can also greatly reduce the operational risk of testing personnel.

In addition, preferably, in a specific embodiment of the present invention, the height scale and the width scale are also provided with scales. Therefore, in the case of a relatively short distance, the measurement personnel can directly obtain the data information of the parts to be measured according to the scales of the height scale and the width scale. In addition, when testing or calibrating the above-mentioned measuring device, the scales on the height gauge and the width gauge can be compared with the display information on the display, so that the above-mentioned testing or calibrating operation can be conveniently completed.

In addition, preferably, in a specific embodiment of the present invention, the tower box is a telescopic hollow cylindrical rod.

In addition, preferably, in a specific embodiment of the present invention, the display is a digital display. Therefore, the surveyor can intuitively know the data information to be measured, which can effectively avoid the problem that the vision and line of sight are affected due to the height beam being too high, making the reading laborious.

In summary, in the technical solution of the present invention, since the tower box in the above-mentioned measuring device is provided with a multi-stage retractable structure, the length of the above-mentioned measuring device can be freely adjusted to abut the height ruler and the width ruler on the On the high-altitude beam to be measured, then apply horizontal force and vertical force respectively, pull the height gauge and width gauge apart, and use the wireless signal to determine the distance between the wireless distance sensor and the outer end of the width gauge and the distance between it and the top of the height gauge transmitted to the monitor for display. The surveyor only needs to check the display information on the monitor to know the data information of the high-altitude beam to be measured (for example, data such as the height and width of the high-altitude beam). After the measurement has been completed, the measuring device can be retracted. After the height ruler and the width ruler on the measuring device leave the high-altitude beam to be measured, the wireless distance sensor will return to its initial position before the measurement under the pulling force of the elastic connector (for example, the first movable rail and the second movable rail). One end of the two movable rails).

Therefore, using the above-mentioned measuring device for high-altitude beams, the cross-sectional dimensions of high-altitude beams that are far away from the measurement site can be directly measured quickly and effectively; moreover, the measuring device has fast readings, high precision, and is also very convenient to operate; It not only saves manpower and cost, but also saves time, and can also greatly reduce the operational risk of testing personnel. In addition, the above measuring device in the present invention has a simple structure and is easy to carry and disassemble.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included in the present invention. within the scope of protection.

Claims (4)

1. a kind of measuring device, which is characterized in that the measuring device includes：Tower box, height gauge, broad-ruler, wireless distances sensing Device and display；

Multistage retractable structure is provided in the tower box；

The bottom of the height gauge is fixed on the most upper level retractable structure of the tower box, and the top of the height gauge is from institute The top for stating tower box is stretched out, and the extending direction of the height gauge is identical with the extending direction of the tower box；On the height gauge It is provided with the first active rail；

The broad-ruler is arranged on the top of the tower box and vertical with the extending direction of the height gauge；It is set on the broad-ruler It is equipped with the second active rail；

The wireless distances sensor is threaded through in first active rail and the second active rail, by the height gauge and broad-ruler It links together；The wireless distances sensor can be slided along first active rail and the second active rail；The wireless distances Sensor is connect by the first flexible connector with one end of first active rail, passes through the second flexible connector and described the One end connection of two active rails；

The data of measurement are sent to the display by wireless signal and shown by the wireless distances sensor.

2. measuring device according to claim 1, it is characterised in that：

Scale is both provided on the height gauge and broad-ruler.

3. measuring device according to claim 1, it is characterised in that：

The display is digital display screen.

4. measuring device according to claim 1, it is characterised in that：

The tower box is scalable hollow cylinder body rod.