CN216717285U - Three-dimensional expansion measuring device for industrial equipment - Google Patents

Abstract

The utility model relates to a three-dimensional expansion measuring device of industrial equipment, which comprises: the system comprises a remote terminal and a plurality of ranging modules; the distance measuring module comprises a laser distance measuring unit, a three-dimensional reflecting frame and an integrated circuit unit; the three-dimensional reflecting frame is fixedly arranged on a fixed steel frame of the industrial equipment; the laser ranging module is fixedly arranged at a point to be monitored of the industrial equipment and extends into the three-dimensional reflection frame; the laser ranging unit transmits three mutually perpendicular light waves to the three-dimensional reflection frame, the three-dimensional reflection frame reflects the light waves, and the laser ranging unit receives three reflected waves; and the integrated circuit unit obtains a three-way distance based on the three light waves and the three reflected waves and sends the three-way distance to the remote terminal. The utility model solves the problems of poor timeliness and accuracy of expansion monitoring of industrial equipment, reduces the labor intensity of workers and reduces the maintenance amount of a monitoring device.

Description

Three-dimensional expansion measuring device for industrial equipment

Technical Field

The utility model relates to the technical field of equipment deformation monitoring, in particular to a three-dimensional expansion measuring device for industrial equipment.

Background

When the industrial equipment deforms beyond the tolerance of the components, it can cause damage to the equipment, breakage, and even unplanned furnace shutdowns. The monitoring demand of industrial equipment expansion is developed from timing monitoring to real-time online monitoring. The real-time continuous monitoring can master the running state of the equipment in real time, and has great significance for the safe running of industrial equipment.

Changes in the geometry of the pressure-bearing equipment or components after exposure to heat and pressure are monitored by industrial equipment expansion indicators, which if outside the design limits indicate a problem with the operation of the equipment. The expansion monitoring of the industrial equipment can timely find the deformation of the evaporation equipment caused by improper ignition, temperature rise and pressure rise, and prevent cracks, leakage and the like caused by uneven expansion.

Taking an industrial boiler as an example, most of the conventional boiler expansion indicators are designed by adding a scale plate on a pointer, and are called as mechanical boiler expansion indicators. The pointer of the mechanical expansion indicator is fixed on the boiler, the field grid scales with millimeters as units are carved on the scale plate, the scale plate is fixed on the boiler steel frame, and the pointer is perpendicular to the scale plate. Because the boiler steelframe is static relatively, and the boiler takes place to expand and contract when the temperature variation, so the volume that takes place relative displacement between pointer and the scale plate is the inflation volume of boiler.

During the start, stop and large load change operation of the boiler, the patrolling personnel go to each monitoring position of the boiler to check the scale value pointed by the pointer of the mechanical boiler expansion indicator on site.

Along with the increase of the boiler volume, expansion measuring points are more and more, the distance between each point position is longer, the manual inspection and recording accuracy and timeliness are poor, the boiler expansion data are not easy to analyze correctly, expansion hidden dangers are found, and the dynamic expansion condition of the boiler cannot be monitored and recorded in real time; and the data of the same inspection is not the data at the same moment, which brings difficulty to hidden danger analysis and increases analysis errors.

Since expansion of industrial equipment often has three expansion directions, for example, in an industrial boiler, the boiler moves in the axial direction of a pointer of a mechanical expansion indicator, in order to avoid contact between the pointer and a scale plate, a certain safety distance needs to be kept between the pointer and the scale plate, and the distance depends on the maximum expansion amount of the boiler in the axial direction of the pointer. This safety distance reduces the reading accuracy and precision of the indicator. In order to improve the precision and reduce the safety distance, the scale plate is horizontally placed, and the pointer is changed into a vertically telescopic pointer. However, the scale of the scale plate is millimeter level, the area of the top end of the pointer is larger than 1 millimeter, and the telescopic design of the pointer makes it more difficult to ensure the accuracy requirement of 1 millimeter after the pointer is telescopic. The error of the mechanical boiler three-way expansion indicator is very large.

Statistical analysis is difficult because all data is recorded on paper version notebooks. When computer-aided analysis is needed, expansion values of the boiler are required to be manually input into a computer, the larger the data volume is, the data entry work is delayed, and once the data is delayed, the reference value is obviously reduced.

Based on the problems, the boiler expansion detector based on the micro-displacement positioning technology is provided. The detector uses the absolute encoder to measure the expansion condition of the boiler, real-time expansion data is displayed through the liquid crystal display and written into the memory card, and meanwhile, the data is sent to the control room through the bus interface, so that accurate and real-time boiler expansion information can be provided for power station operators. However, an encoder configured on the boiler expansion detector based on the micro-displacement positioning technology is a contact sensor, and must be in contact measurement with a monitoring part, so that the structure is complex, and the cost is high; after the data of the inflation monitoring instrument is acquired, manual analysis is still needed, the analysis result is often related to personal experience, and the objectivity is poor.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a three-dimensional expansion measuring device for industrial equipment, which periodically emits a near-infrared light modulated wave outwards, the modulated wave is reflected after encountering an object, the product obtains the flight time by measuring the round-trip phase difference of the modulated wave, and then calculates the relative distance between the product and the measured target.

In order to achieve the purpose, the utility model provides the following scheme:

an industrial equipment three-dimensional expansion measurement device comprising: the system comprises a remote terminal and a plurality of ranging modules;

the distance measurement module comprises a laser distance measurement unit, a three-dimensional reflection frame and an integrated circuit unit;

the three-dimensional reflecting frame is fixedly arranged on a fixed steel frame of the industrial equipment;

the laser ranging module is fixedly arranged at a point to be monitored of the industrial equipment and extends into the three-dimensional reflection frame;

the laser ranging unit transmits three mutually perpendicular light waves to the three-dimensional reflection frame, the three-dimensional reflection frame reflects the light waves, and the laser ranging unit receives three reflected waves;

and the integrated circuit unit obtains a three-way distance based on the three light waves and the three reflected waves and sends the three-way distance to the remote terminal.

Preferably, the three-dimensional reflection frame comprises a first reflection plate, a second reflection plate and a third reflection plate;

and the first reflecting plate, the second reflecting plate and the third reflecting plate are vertically connected in pairs to obtain the three-dimensional reflecting frame.

Preferably, the laser ranging unit includes: the device comprises a first laser ranging sensor, a second laser ranging sensor, a third laser ranging sensor, a sensor shell and an extension piece;

the first laser ranging sensor, the second laser ranging sensor and the third laser ranging sensor are arranged at one end of the sensor shell and are perpendicular to each other;

the other end of the sensor shell is provided with a hole with internal threads; one end of the extension piece is provided with an external thread matched with the internal thread, the extension piece is connected with the sensor shell through the internal thread and the external thread, and the other end of the extension piece is fixedly arranged at a to-be-monitored point of industrial equipment;

the first laser ranging sensor transmits a first light wave to the first reflecting plate, and the first light wave is reflected at the first reflecting plate to obtain a first reflected wave which is received by the first laser ranging sensor; the first light wave is perpendicular to the first reflecting plate;

the second laser ranging sensor transmits a second light wave to the second reflecting plate, and the second light wave is reflected at the second reflecting plate to obtain a second reflected wave which is received by the second laser ranging sensor; the second light wave is perpendicular to the second reflecting plate;

the third laser ranging sensor transmits a third light wave to the third reflector, and the third light wave is reflected at the third reflector to obtain a third reflected wave which is received by the third laser ranging sensor; the third light wave is perpendicular to the third reflector plate;

the optical waves include the first optical wave, the second optical wave, and the third optical wave; the reflected wave includes the first reflected wave, the second reflected wave, and the third reflected wave.

Preferably, the ranging module further comprises a communication unit;

the integrated circuit unit transmits the three-way distance to the remote terminal through the communication unit.

Preferably, the ranging module further includes: a power source;

the power supply supplies power to the integrated circuit unit.

Preferably, the ranging module further includes: a protective shell;

the communication unit, the laser ranging unit and the integrated circuit unit are all arranged in the protective shell;

the protective housing is provided with an opening, and the laser ranging unit passes through the opening and extends into in the three-dimensional reflection frame.

Preferably, the laser ranging unit is connected with the integrated circuit unit through an RS485 serial port, and a standard ModBus protocol is adopted as a communication protocol.

Preferably, the integrated circuit unit comprises an amplifying circuit, a filtering circuit, an analog-to-digital conversion circuit and a control chip;

the amplifying circuit amplifies the first light wave, the second light wave, the third light wave, the first reflected wave, the second reflected wave and the third reflected wave to obtain a first amplified light wave, a second amplified light wave, a third amplified light wave, a first amplified reflected wave, a second amplified reflected wave and a third amplified reflected wave;

the filter circuit is used for filtering the first amplified light wave, the second amplified light wave, the third amplified light wave, the first amplified reflected wave, the second amplified reflected wave and the third amplified reflected wave to obtain a first filtered light wave, a second filtered light wave, a third filtered light wave, a first filtered reflected wave, a second filtered reflected wave and a third filtered reflected wave;

the analog-to-digital conversion circuit performs analog-to-digital conversion processing on the first filtered light wave, the second filtered light wave, the third filtered light wave, the first filtered reflected wave, the second filtered reflected wave and the third filtered reflected wave to obtain a first digital light wave, a second digital light wave, a third digital light wave, a first digital reflected wave, a second digital reflected wave and a third digital reflected wave;

the control chip obtains a first direction distance based on the first digital light wave and the first digital reflected wave; the control chip obtains a second direction distance based on the second digital light wave and the second digital reflected wave; the control chip obtains a third direction distance based on the third digital light wave and the third digital reflected wave; the three-way distance includes the first direction distance, the second direction distance, and the third direction distance.

Preferably, the distance between the first laser ranging sensor and the first reflector is greater than or equal to an expansion set value; the distance between the second laser ranging sensor and the second reflecting plate is greater than or equal to the expansion set value; the distance between the third laser ranging sensor and the third reflector is greater than or equal to the expansion set value.

According to the specific embodiment provided by the utility model, the utility model discloses the following technical effects:

the utility model relates to a three-dimensional expansion measuring device of industrial equipment, which comprises: the system comprises a remote terminal and a plurality of ranging modules; the distance measurement module comprises a laser distance measurement unit, a three-dimensional reflection frame and an integrated circuit unit; the three-dimensional reflecting frame is fixedly arranged on a fixed steel frame of the industrial equipment; the laser ranging module is fixedly arranged at a point to be monitored of the industrial equipment and extends into the three-dimensional reflection frame; the laser ranging unit transmits three mutually perpendicular light waves to the three-dimensional reflection frame, the three-dimensional reflection frame reflects the light waves, and the laser ranging unit receives three reflected waves; and the integrated circuit unit obtains a three-way distance based on the three light waves and the three reflected waves and sends the three-way distance to the remote terminal. The utility model solves the problems of poor timeliness and accuracy of expansion monitoring of industrial equipment, reduces the labor intensity of workers and reduces the maintenance amount of a monitoring device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a schematic diagram of a three-dimensional expansion measuring device of an industrial plant according to the present invention;

FIG. 2 is a schematic view of a three-dimensional reflector according to the present invention;

FIG. 3 is a schematic diagram of the relative positions of the laser ranging unit and the three-dimensional reflector according to the present invention;

FIG. 4 is a schematic structural diagram of a laser ranging unit according to the present invention;

FIG. 5 is a schematic view of the laser ranging unit of the present invention rotated 180 along the x-axis;

FIG. 6 is a schematic view of the laser ranging unit of the present invention rotated 180 along the y-axis.

Description of the symbols: 1-ranging module, 2-remote terminal, 11-laser ranging unit, 12-communication unit, 13-power supply, 15-three-dimensional reflector, 16-integrated circuit unit, 111-first laser ranging sensor, 112-second laser ranging sensor, 113-third laser ranging sensor, 114-sensor shell, 115-extension piece, 116-hole, 151-first reflector, 152-second reflector, 153-third reflector, 161-amplifying circuit, 162-filter circuit, 163-analog-digital conversion circuit, 164-control chip, 1141-first light transmission opening, 1142-second light transmission opening and 1143-third light transmission opening.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The utility model aims to provide a three-dimensional expansion measuring device for industrial equipment, which periodically emits near-infrared light modulation waves outwards, the modulation waves are reflected after meeting an object, the product obtains the flight time by measuring the round-trip phase difference of the modulation waves, and then the relative distance between the product and a measured target is calculated.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Fig. 1 is a schematic structural diagram of an industrial equipment three-dimensional expansion measuring device according to the present invention, and as shown in the figure, the present invention provides an industrial equipment three-dimensional expansion measuring device, which includes: a remote terminal 2 and several ranging modules 1.

The number of the ranging modules 1 is selected according to actual requirements, and specifically, the ranging modules include a laser ranging unit 11, a communication unit 12, a power supply 13, a protective shell, a three-dimensional reflecting frame 15 and an integrated circuit unit 16.

As shown in fig. 2, the three-dimensional reflection frame 15 includes a first reflection plate 151, a second reflection plate 152, and a third reflection plate 153.

The first reflection plate 151, the second reflection plate 152, and the third reflection plate 153 are connected to each other in a mutually perpendicular manner, so as to obtain the three-dimensional reflection frame 15. First reflecting plate 151 second reflecting plate 152 with third reflecting plate 153 all is provided with the scale, the degree of depth of scale is 0.1 ~ 0.5mm, the center of scale is 0 point, is 1mm to four directions minimum scales from 0 point, four directions of scale, there is the digital mark per 10 mm. The length, width, height, and dimension of the first reflective plate 151, the second reflective plate 152, and the third reflective plate 153 are determined by actual requirements.

The three-dimensional reflection frame 15 is fixedly arranged on a fixed steel frame of the industrial equipment.

Further, as shown in fig. 4, 5 and 6, the laser ranging unit 11 includes: a first laser ranging sensor 111, a second laser ranging sensor 112, a third laser ranging sensor 113, a sensor housing 114, and an extension piece 115. In this embodiment, the models of the first laser ranging sensor 111, the second laser ranging sensor 112, and the third laser ranging sensor 113 are all KLH-03T-20 hz.

First laser rangefinder sensor 111 second laser rangefinder sensor 112 with third laser rangefinder sensor 113 sets up the one end of sensor housing 114, just first laser rangefinder sensor 111 second laser rangefinder sensor 112 with third laser rangefinder sensor 113 mutually perpendicular.

One end of the sensor housing 114 is provided with a first light transmission opening 1141, a second light transmission opening 1142 and a third light transmission opening 1143. The first light-transmitting opening 1141 corresponds to the first laser ranging sensor 111, the second light-transmitting opening 1142 corresponds to the second laser ranging sensor 112, and the third light-transmitting opening 1143 corresponds to the third laser ranging sensor 113.

The other end of the sensor housing 114 is provided with a hole 116 with internal threads; one end of the extension piece 115 is provided with an external thread matched with the internal thread, the extension piece 115 is connected with the outer shell of the sensor shell 114 through the internal thread and the external thread, so that the axial deflection or falling of the extension piece of the monitoring point of the laser ranging unit 11 is prevented, and the other end of the extension piece 115 is fixedly arranged at the point to be monitored of the industrial equipment.

The laser ranging unit 11 is fixedly arranged at a point to be monitored of the industrial equipment and extends to the 90-degree angle range of the three-dimensional reflection frame 15, as shown in fig. 3.

The integrated circuit unit 16 includes an amplifying circuit 161, a filtering circuit 162, an analog-to-digital conversion circuit 163, and a control chip 164, which are connected in sequence. In this embodiment, the control chip 164 is a 51-series single chip microcomputer.

The communication unit 12, the laser ranging unit 11, the power supply 13, and the integrated circuit unit 16 are all disposed in the protective case.

The protective shell is provided with an opening, and the laser ranging unit 11 passes through the opening and extends into the three-dimensional reflection frame 15.

The first laser ranging sensor 111 transmits a first light wave to the first reflector 151, and the first light wave is reflected at the first reflector 151 to obtain a first reflected wave, which is received by the first laser ranging sensor 111; the first light wave is perpendicular to the first reflective plate 151. The distance between the first laser ranging sensor 111 and the first reflection plate 151 is greater than or equal to an expansion set value, and the expansion set value is the maximum expansion value of the industrial equipment and is specifically selected according to different industrial equipment.

The second laser ranging sensor 112 emits a second light wave to the second reflector 152, and the second light wave is reflected by the second reflector 152 to obtain a second reflected wave, which is received by the second laser ranging sensor 112; the second light wave is perpendicular to the second reflective plate 152. The distance between the second laser ranging sensor 112 and the second reflection plate 152 is greater than or equal to the expansion setting amount.

The third laser ranging sensor 113 emits a third light wave to the third reflector 153, and the third light wave is reflected by the third reflector 153 to obtain a third reflected wave, which is received by the third laser ranging sensor 113; the third light wave is perpendicular to the third reflective plate 153. The distance between the third laser ranging sensor 113 and the third reflection plate 153 is greater than or equal to the expansion setting amount.

The amplification circuit 161 performs amplification processing on the first, second, third, first, second, and third light waves to obtain first, second, third, first, second, and third amplified light waves. The first laser ranging sensor 111, the second laser ranging sensor 112 and the third laser ranging sensor 113 are all connected with the amplifying circuit 161 through RS485 serial ports, and a standard ModBus protocol is adopted as a communication protocol.

The filter circuit 162 performs a filtering process on the first amplified light wave, the second amplified light wave, the third amplified light wave, the first amplified reflected wave, the second amplified reflected wave, and the third amplified reflected wave to obtain a first filtered light wave, a second filtered light wave, a third filtered light wave, a first filtered reflected wave, a second filtered reflected wave, and a third filtered reflected wave.

The analog-to-digital conversion circuit 163 performs analog-to-digital conversion processing on the first filtered light wave, the second filtered light wave, the third filtered light wave, the first filtered reflected wave, the second filtered reflected wave, and the third filtered reflected wave to obtain a first digital light wave, a second digital light wave, a third digital light wave, a first digital reflected wave, a second digital reflected wave, and a third digital reflected wave.

The control chip 164 obtains a first directional distance based on the phase difference between the first digital light wave and the first digital reflected wave; the control chip 164 obtains a second directional distance based on the phase difference between the second digital light wave and the second digital reflected wave; the control chip 164 obtains a third directional distance based on the phase difference between the third digital light wave and the third digital reflected wave.

The control chip 164 sends the first direction distance, the second direction distance and the third direction distance to the remote terminal 2 through the communication unit 12, and the remote terminal 2 displays the first direction distance, the second direction distance and the third direction distance in a matrix and a graph through a table, a curve, a histogram, a pie chart and the like, so that a worker can intuitively understand the meaning of data and the value of the data. In this embodiment, the communication unit 12 selects a TTL to RS485 automatic transceiver module.

The power supply 13 supplies power to the control chip 164.

Preferably, in this embodiment, zero point calibration is performed on the first direction distance, the second direction distance, and the third direction distance, and a calibrated zero point value is a starting point of data reading. Namely, the first direction distance, the second direction distance and the third direction distance before the expansion of the industrial equipment are marked as zero points, and the subsequent change amount is the expansion amount of the industrial equipment, and the expansion amount of the industrial equipment is the change amount relative to the zero point measured value.

The utility model solves the problems of poor timeliness and accuracy of expansion monitoring of industrial equipment and reduces the labor intensity of workers. And the measuring equipment and the tested equipment are not in physical contact, so that the maintenance amount of the equipment is small.

The utility model accesses the distance measuring module into the remote terminal in a networking mode, adopts serial port service as a transfer device of numerical values, and places the acquisition and calculation of data in the distance measuring module and the display and analysis functions of the data in the remote terminal.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to assist in understanding the core concepts of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the utility model.

Claims (9)

1. An industrial equipment three-dimensional expansion measuring device, comprising: the system comprises a remote terminal and a plurality of ranging modules;

the distance measurement module comprises a laser distance measurement unit, a three-dimensional reflection frame and an integrated circuit unit;

the three-dimensional reflecting frame is fixedly arranged on a fixed steel frame of the industrial equipment;

the laser ranging module is fixedly arranged at a point to be monitored of the industrial equipment and extends into the three-dimensional reflection frame;

the laser ranging unit transmits three mutually perpendicular light waves to the three-dimensional reflection frame, the three-dimensional reflection frame reflects the light waves, and the laser ranging unit receives three reflected waves;

and the integrated circuit unit obtains a three-way distance based on the three light waves and the three reflected waves and sends the three-way distance to the remote terminal.

2. The industrial equipment three-dimensional expansion measurement device of claim 1, wherein the three-dimensional reflector frame comprises a first reflector plate, a second reflector plate, and a third reflector plate;

and the first reflecting plate, the second reflecting plate and the third reflecting plate are vertically connected in pairs to obtain the three-dimensional reflecting frame.

3. The industrial equipment three-dimensional expansion measurement device of claim 2, wherein the laser ranging unit comprises: the device comprises a first laser ranging sensor, a second laser ranging sensor, a third laser ranging sensor, a sensor shell and an extension piece;

the first laser ranging sensor, the second laser ranging sensor and the third laser ranging sensor are arranged at one end of the sensor shell and are perpendicular to each other;

the other end of the sensor shell is provided with a hole with internal threads; one end of the extension piece is provided with an external thread matched with the internal thread, the extension piece and the sensor shell are connected through the internal thread and the external thread, and the other end of the extension piece is fixedly arranged at a to-be-monitored point of industrial equipment;

the first laser ranging sensor transmits a first light wave to the first reflecting plate, and the first light wave is reflected at the first reflecting plate to obtain a first reflected wave which is received by the first laser ranging sensor; the first light wave is perpendicular to the first reflecting plate;

the second laser ranging sensor transmits a second light wave to the second reflecting plate, and the second light wave is reflected at the second reflecting plate to obtain a second reflected wave which is received by the second laser ranging sensor; the second light wave is vertical to the second reflecting plate;

the third laser ranging sensor transmits a third light wave to the third reflector, and the third light wave is reflected at the third reflector to obtain a third reflected wave which is received by the third laser ranging sensor; the third light wave is perpendicular to the third reflector plate;

the optical waves include the first optical wave, the second optical wave, and the third optical wave; the reflected wave includes the first reflected wave, the second reflected wave, and the third reflected wave.

4. The industrial equipment three-dimensional expansion measurement device of claim 1, wherein the ranging module further comprises a communication unit;

the integrated circuit unit transmits the three-way distance to the remote terminal through the communication unit.

5. The industrial equipment three-dimensional expansion measurement device of claim 1, wherein the ranging module further comprises: a power source;

the power supply supplies power to the integrated circuit unit.

6. The industrial equipment three-dimensional expansion measurement device of claim 4, wherein the ranging module further comprises: a protective shell;

the communication unit, the laser ranging unit and the integrated circuit unit are all arranged in the protective shell;

the protective housing is provided with an opening, and the laser ranging unit passes through the opening and extends into in the three-dimensional reflection frame.

7. The three-dimensional expansion measuring device of industrial equipment as claimed in claim 1, wherein the laser ranging unit is connected with the integrated circuit unit through an RS485 serial port, and a standard ModBus protocol is adopted as a communication protocol.

8. The industrial equipment three-dimensional expansion measuring device according to claim 3, wherein the integrated circuit unit comprises an amplifying circuit, a filtering circuit, an analog-to-digital conversion circuit and a control chip;

the amplifying circuit amplifies the first light wave, the second light wave, the third light wave, the first reflected wave, the second reflected wave and the third reflected wave to obtain a first amplified light wave, a second amplified light wave, a third amplified light wave, a first amplified reflected wave, a second amplified reflected wave and a third amplified reflected wave;

the filter circuit is used for filtering the first amplified light wave, the second amplified light wave, the third amplified light wave, the first amplified reflected wave, the second amplified reflected wave and the third amplified reflected wave to obtain a first filtered light wave, a second filtered light wave, a third filtered light wave, a first filtered reflected wave, a second filtered reflected wave and a third filtered reflected wave;

the analog-to-digital conversion circuit performs analog-to-digital conversion processing on the first filtered light wave, the second filtered light wave, the third filtered light wave, the first filtered reflected wave, the second filtered reflected wave and the third filtered reflected wave to obtain a first digital light wave, a second digital light wave, a third digital light wave, a first digital reflected wave, a second digital reflected wave and a third digital reflected wave;

the control chip obtains a first direction distance based on the first digital light wave and the first digital reflected wave; the control chip obtains a second direction distance based on the second digital light wave and the second digital reflected wave; the control chip obtains a third directional distance based on the third digital light wave and the third digital reflected wave; the three-way distance includes the first direction distance, the second direction distance, and the third direction distance.

9. The industrial equipment three-dimensional expansion measuring device of claim 3, wherein the distance between the first laser ranging sensor and the first reflector plate is greater than or equal to an expansion setting amount; the distance between the second laser ranging sensor and the second reflecting plate is greater than or equal to the expansion set value; the distance between the third laser ranging sensor and the third reflector is greater than or equal to the expansion set value.

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