CN215909963U - Precision instrument transportation vibration meter - Google Patents

Abstract

The utility model discloses a precision instrument transportation vibration meter which can improve detection precision, is convenient to install and has a simple structure. The precision instrument transportation vibration meter comprises a base; a groove extending upwards is formed in the middle of the base; a data processor and a storage battery are arranged in the groove; an opening is formed in the lower end of the groove, and a sealing cover is arranged at the opening; the bottom of the mounting block is provided with three ball joints which are hinged; a sliding pressing block is arranged above the ball joint in a hinged manner; a sliding groove is formed above the sliding pressing block, and a sliding pressing plate is arranged in the sliding groove; the top of the mounting block is provided with a locking bolt for pressing the sliding pressure plate; and vibration detection sensors are arranged below the ball joints. The vibration meter can be transported by adopting the precision instrument, so that the detection precision can be improved; thereby being convenient for being applied to the transportation of precise instruments.

Description

Precision instrument transportation vibration meter

Technical Field

The utility model relates to vibration detection in the process of cargo transportation, in particular to a precision instrument transportation vibration meter.

Background

It is known that: precision instruments transportation vibration measuring instruments, alias transportation vibration monitoring instruments, transportation environment recorders, impact recorders, three-dimensional collision recorders, three-axis acceleration recorders and the like. The device is mainly used for monitoring the whole process of changes of vibration, impact, temperature and humidity and the like in the process of transporting precise goods and special requirements, so as to determine whether the goods are damaged in the transporting process, and provide scientific data for transportation so as to find the optimal transporting mode and find the cause of problems.

The existing transportation vibration monitor sets corresponding detection parameters through a control panel, and then seals the control panel through a box cover.

The installation position of the existing transportation vibration monitor determines the position of the vibration sensor, so that the vibration sensor cannot be always positioned in the vertical direction; thereby failing to ensure the detection accuracy. For the precision instrument, the performance of the precision instrument has certain influence when small vibration occurs in the transportation process, so the requirement on the vibration detection precision of the precision instrument in the transportation process is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a precision instrument transportation vibration meter which can improve the detection precision, is convenient to install and has a simple structure.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the precision instrument transportation vibration meter comprises a base; a groove extending upwards is formed in the middle of the base; a data processor and a storage battery are arranged in the groove; an opening is formed in the lower end of the groove, and a sealing cover is arranged at the opening; the base is provided with a shell; an installation block is arranged above the shell;

the mounting block is in threaded fit with the shell, and the upper surface of the mounting block is provided with a working button and a data display;

the bottom of the mounting block is provided with three ball joints which are hinged; a sliding pressing block is arranged above the ball joint in a hinged manner; a sliding groove is formed above the sliding pressing block, and a sliding pressing plate is arranged in the sliding groove; the top of the mounting block is provided with a locking bolt for pressing the sliding pressure plate; and vibration detection sensors are arranged below the ball joints.

Furthermore, a digital-analog processing module, a memory card reading and storing module, a charging module and a wireless communication module are integrated on the data processor; the digital-to-analog processing module adopts an ADS1274 chip, and the charging module adopts a mobile phone charging module; the wireless communication module employs an IM 506.

Further, the shell is made of stainless steel.

Further, a magnet is arranged on the sealing cover.

Further, the base is in threaded fit with the lower end of the shell.

The utility model has the beneficial effects that: according to the precision instrument transportation vibration meter, the vibration detection sensor is arranged on the ball joint, so that the adjustment of the installation angle of the vibration detection sensor is facilitated; the sensor can be ensured to be always in the vertical direction; thereby improving the detection accuracy.

Secondly, because three vibration detection sensors are arranged, the vibration in the three-axis direction of X, Y, Z can be detected through the three vibration sensors, and therefore the detection precision is further improved; thereby being convenient for being applied to the transportation of precise instruments.

Drawings

FIG. 1 is a schematic structural diagram of a precision instrument transportation vibration meter according to an embodiment of the utility model.

Detailed Description

The utility model is further illustrated with reference to the following figures and examples.

As shown in fig. 1, the precision instrument transportation vibration meter of the present invention is characterized in that: comprises a base 1; a groove 4 extending upwards is formed in the middle of the base 1; the groove 4 is internally provided with a data processor 2 and a storage battery 3; the lower end of the groove 4 is provided with an opening, and the opening is provided with a sealing cover 5; the base 1 is provided with a shell 7; an installation block 8 is arranged above the shell 7;

the mounting block 8 is in threaded fit with the shell 7, and the upper surface of the mounting block 8 is provided with a working button 13 and a data display 12;

the bottom of the mounting block 8 is provided with a ball joint hinge 10; the mounting block 8 is provided with a locking bolt 9 of a locking ball joint 10; a vibration detection sensor 11 is arranged below the ball joint 10.

In the installation, at first install casing and base, and the installation is static a period of time after accomplishing, and the rethread is twisted and is moved locking bolt 9 and lock the articulated 10 locks of bulb to guarantee that the sensor is located vertical direction, thereby can effectively improve and detect the precision. The vibration detection sensor is arranged on the ball joint, so that the adjustment of the installation angle of the vibration detection sensor is facilitated; the sensor can be ensured to be always in the vertical direction; thereby improving the detection accuracy.

In a specific application process, as the three vibration detection sensors are arranged, the three vibration sensors can be used for detecting X, Y, Z vibration in three axial directions, so that the detection precision is further improved; thereby being convenient for being applied to the transportation of precise instruments.

Specifically, the data processor 2 is integrated with a digital-analog processing module, a memory card reading and storing module, a charging module and a wireless communication module; the digital-to-analog processing module adopts an ADS1274 chip, and the charging module adopts a mobile phone charging module; the wireless communication module employs an IM 506.

In order to improve the service life, further, the housing 7 is made of stainless steel.

In order to facilitate positioning and installation, a magnet 6 is further arranged on the sealing cover 5.

For the convenience of installation, further, the base 1 is in threaded fit with the lower end of the shell 7.

Claims (4)

1. Precision instruments transportation vibration meter, its characterized in that: comprises a base (1); a groove (4) extending upwards is formed in the middle of the base (1); a data processor (2) and a storage battery (3) are arranged in the groove (4); an opening is formed in the lower end of the groove (4), and a sealing cover (5) is arranged at the opening; a shell (7) is arranged on the base (1); an installation block (8) is arranged above the shell (7);

the mounting block (8) is in threaded fit with the shell (7), and the upper surface of the mounting block (8) is provided with a working button (13) and a data display (12);

the bottom of the mounting block (8) is provided with three ball joints which are hinged; a sliding pressing block (14) is arranged above the ball joint; a sliding groove (16) is formed above the sliding pressing block (14), and a sliding pressing plate (15) is arranged in the sliding groove; the top of the mounting block (8) is provided with a locking bolt (9) for pressing the sliding pressure plate (15); and vibration detection sensors (11) are arranged below the ball head hinges (10).

2. The precision instrument transportation vibrometer of claim 1, wherein: the data processor (2) is integrated with a digital-analog processing module, a memory card reading and storing module, a charging module and a wireless communication module; the digital-to-analog processing module adopts an ADS1274 chip, and the charging module adopts a mobile phone charging module; the wireless communication module employs an IM 506.

3. A precision instrument transportation vibrometer according to claim 2, wherein: the shell (7) is made of stainless steel.

4. A precision instrument transportation vibrometer according to claim 3, wherein: and a magnet (6) is arranged on the sealing cover (5).

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