CN211317504U - Triaxial acceleration sensor fast-assembling support device for pipeline - Google Patents

Abstract

The utility model belongs to the technical field of triaxial sensor fast-assembling support, concretely relates to triaxial acceleration sensor fast-assembling support device for pipeline. The sensor upper support is integrally cylindrical, the top of the sensor upper support is provided with a threaded hole for connecting the triaxial acceleration sensor, and the bottom of the sensor upper support is provided with a boss matched with the boss hole of the sensor lower support; the lower sensor support is integrally cubic, a boss hole matched with a boss of the upper sensor support is formed in the top of the lower sensor support, threaded holes are formed in two adjacent side faces of the lower sensor support respectively, meanwhile, a rectangular through hole is formed in one side face of the lower sensor support and used for a fastening screw, and the rectangular through hole is used for penetrating and connecting a test pipeline and a clamp of the sensor; the bottom of the sensor lower support is provided with a wedge-shaped groove. The utility model discloses can guarantee that triaxial piezoelectric type acceleration sensor's X, Y and Z to with will test the X, Y and Z of object to unanimous, turn to suitable position when the sensor, screw up set screw and just can realize fixing and location.

Description

Triaxial acceleration sensor fast-assembling support device for pipeline

Technical Field

The utility model belongs to the technical field of triaxial sensor fast-assembling support, concretely relates to triaxial acceleration sensor fast-assembling support device for pipeline.

Background

The vibration test is a common pipeline state monitoring mode of a power plant, the acceleration sensor is widely applied to the pipeline vibration test due to the advantages of wide frequency response range, wide measuring range, high sensitivity and the like, the triaxial acceleration sensor not only inherits the advantages, but also can be used for measuring vibration signals in 3 directions (X, Y and Z directions) at one time, and time and manpower are saved, so that the acceleration sensor is more and more applied to the pipeline vibration test.

Usually, the acceleration sensor needs to be connected and fixed with the pipeline through a sensor seat. At present, the mode of fixing with the iron wire ligature that triaxial acceleration sensor's installation adopted, the shortcoming of this kind of support is unable realization fast-assembling, simultaneously because during the iron wire ligature, the power is difficult to control, and the sensor produces parasitic vibration easily too loosely, and the iron wire is easy to split too tightly, needs the debugging repeatedly, and this causes personnel's injury easily in the environment that some conditions are abominable, like high temperature, high dose region.

In order to thoroughly solve the special problem of the traditional sensor seat in the pipeline test, namely, no matter what test object is faced, X, Y and Z directions of the triaxial acceleration sensor can be ensured to be consistent with X, Y and Z directions of the test object all the time, and meanwhile, the sensor can be fast assembled, a support device of the triaxial acceleration sensor capable of being fast assembled is required to be designed.

Disclosure of Invention

An object of the utility model is to provide a triaxial acceleration sensor fast-assembling support device for pipeline to overcome the defect that prior art exists.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

a quick-mounting support device of a triaxial acceleration sensor for a pipeline comprises an upper support of the sensor, a lower support of the sensor and a set screw; the sensor upper support is integrally cylindrical, the top of the sensor upper support is provided with a threaded hole for connecting the triaxial acceleration sensor, and the bottom of the sensor upper support is provided with a boss matched with the boss hole of the sensor lower support; the lower sensor support is integrally cubic, a boss hole matched with a boss of the upper sensor support is formed in the top of the lower sensor support, threaded holes are formed in two adjacent side faces of the lower sensor support respectively, meanwhile, a rectangular through hole is formed in one side face of the lower sensor support and used for a fastening screw, and the rectangular through hole is used for penetrating and connecting a test pipeline and a clamp of the sensor; the bottom of the sensor lower support is provided with a wedge-shaped groove.

The sensor lower support is made of aluminum alloy.

The set screw material is 45# steel.

The sensor upper support is made of aluminum alloy.

The method comprises the steps of firstly, penetrating a clamp suitable for the size of a measured pipeline through a rectangular through hole of a sensor lower support, fixing the sensor lower support on the measured pipeline, then installing sensor threads into a threaded hole of a sensor upper support, then installing a sensor upper support boss provided with a triaxial sensor into a boss hole of the sensor lower support, then rotating the sensor upper support to a proper position, namely enabling the directions of X, Y and Z of the triaxial sensor to be respectively consistent with X, Y and Z of a measured object, and then sequentially screwing 2 set screws to a proper degree.

The utility model discloses the beneficial effect who gains does:

the fast-assembling support of the triaxial acceleration sensor is in gapless free rotation fit with the boss hole of the upper support and the boss hole of the lower support of the sensor, so that no matter what test object faces, X, Y and Z directions of the triaxial piezoelectric acceleration sensor can be consistent with X, Y and Z directions of the test object to be tested, and when the sensor is rotated to a proper position, fixing and positioning can be realized by screwing a set screw. Meanwhile, the clamp can be quickly disassembled and assembled.

Compared with the prior sensor support, the utility model has the advantages of it is following:

1. the original lower support is changed into a cube from a cylinder, so that a rectangular hole for penetrating the hoop can be conveniently processed, and the on-site installation effect can be ensured to be more stable;

2. the original binding by iron wires is changed into fixation by a hoop, so that the defects of iron wire breakage, unstable binding and the like which are easily caused by iron wire binding are avoided, and the rapid disassembly and assembly can be realized;

3. can be repeatedly used and has lower cost.

Therefore, the utility model has the advantages of simple structure, convenient to use and reliability are high.

Drawings

FIG. 1 is a general view of a quick-mounting support of a triaxial sensor;

in fig. 1, 1. a sensor lower support; 2. tightening the screw; 3. a sensor upper support;

FIG. 2 is a view of the sensor lower support of FIG. 1;

FIG. 3 is the set screw of FIG. 1;

FIG. 4 is a top view of the sensor upper support of FIG. 1;

FIG. 5 is a sensor;

fig. 6 is a schematic view of the sensor mounted to the sensor mount.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in figures 1-6, the utility model discloses a triaxial acceleration sensor fast-assembling support device for pipeline includes sensor upper bracket 3, sensor undersetting 1, holding screw 2.

The whole sensor upper support 3 is cylindrical, a threaded hole for connecting the sensor upper support with the triaxial acceleration sensor is formed in the top of the sensor upper support, a boss matched with the boss hole of the sensor lower support 1 is reserved at the bottom of the sensor upper support, the sensor upper support can freely rotate in the boss hole without a gap, and stepless adjustment is achieved.

The whole sensor lower support 1 is a cube, and the top of the sensor lower support is provided with a boss hole matched with the boss of the sensor upper support 3, so that the boss can be ensured to freely rotate without a gap in the sensor lower support, and stepless adjustment is realized. Two adjacent side surfaces of the sensor lower support 1 are respectively provided with 1 threaded hole, one side surface is provided with a rectangular through hole for a hoop to pass through, the threaded holes are used by the set screws 2, and when the sensor rotates to a proper position, the set screws are screwed down to realize fixing and positioning; the through hole is used for penetrating and connecting a test pipeline and a clamp of the sensor, so that the quick assembly and disassembly can be realized; the bottom of the sensor lower support 1 is provided with a wedge-shaped groove for ensuring the contact stability of the sensor support and the test equipment. Set screw 2 is formed by the transformation of set screw standard component, uses with the set screw hole of sensor undersetting is supporting, and when the sensor turned to suitable position, it just can realize fixing and location to screw up set screw 2.

Embodiment mode 1: as shown in FIG. 1, the triaxial acceleration sensor mounting support device comprises a sensor lower support 1, a set screw 2 and a sensor upper support 3.

Embodiment mode 2: as shown in fig. 2, the sensor lower support 1 is made of aluminum alloy and is integrally a cube, a boss hole matched with a boss of the sensor lower support is formed in the upper portion of the cube, a wedge-shaped groove is formed in the lower portion of the cube, 1 threaded hole is formed in each of two adjacent side faces of the cube, and meanwhile a rectangular through hole for penetrating through a clamp is formed in one side face of the cube.

Embodiment mode 3: as shown in fig. 3, is a set screw. The material is 45# steel.

Embodiment 4: as shown in FIG. 4, the sensor upper support is made of aluminum alloy and is integrally cylindrical, a sensor threaded hole is formed in the upper portion of the sensor upper support, and a boss matched with the boss hole of the sensor lower support is machined in the lower portion of the sensor upper support.

The working principle is as follows:

the method comprises the steps of firstly, penetrating a clamp hole of a sensor lower support through a clamp which is suitable for the size of a measured pipeline, fixing the sensor lower support on the measured pipeline, then installing a sensor thread into a threaded hole of a sensor upper support, then installing a sensor upper support boss provided with a triaxial sensor into a boss hole of the sensor lower support, then rotating the sensor upper support to a proper position, namely, the directions of X, Y and Z of the triaxial sensor are respectively consistent with X, Y and Z of a measured object, and then sequentially screwing 2 set screws to a proper degree.

The sensor lower support 1 is used for fixing the sensor on a tested pipeline, the sensor upper support 3 is used for stepless adjustment of the position of the triaxial sensor, and the set screw 2 is used for fixing the triaxial sensor in any required position. The advantages are that: the direction of the triaxial sensor can be adjusted to any direction in a stepless way by quick assembly and disassembly, and the sensor has the advantages of simple structure, reliable performance and repeated use.

Claims (4)

1. The utility model provides a triaxial acceleration sensor fast-assembling support device for pipeline which characterized in that: the sensor comprises an upper sensor support, a lower sensor support and a set screw; the sensor upper support is integrally cylindrical, the top of the sensor upper support is provided with a threaded hole for connecting the triaxial acceleration sensor, and the bottom of the sensor upper support is provided with a boss matched with the boss hole of the sensor lower support; the lower sensor support is integrally cubic, a boss hole matched with a boss of the upper sensor support is formed in the top of the lower sensor support, threaded holes are formed in two adjacent side faces of the lower sensor support respectively, meanwhile, a rectangular through hole is formed in one side face of the lower sensor support and used for a fastening screw, and the rectangular through hole is used for penetrating and connecting a test pipeline and a clamp of the sensor; the bottom of the sensor lower support is provided with a wedge-shaped groove.

2. The quick-mounting support device for the triaxial acceleration sensor for the pipeline as claimed in claim 1, wherein: the sensor lower support is made of aluminum alloy.

3. The quick-mounting support device for the triaxial acceleration sensor for the pipeline as claimed in claim 1, wherein: the set screw material is 45# steel.

4. The quick-mounting support device for the triaxial acceleration sensor for the pipeline as claimed in claim 1, wherein: the sensor upper support is made of aluminum alloy.

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