CN215296921U - A calibrating device for denitration catalyst compressive strength tester - Google Patents

Abstract

The utility model provides a calibrating device for a denitration catalyst compressive strength tester, which is convenient to install and operate and can ensure the reliability and accuracy of test calibration; the calibration device is placed on a tester, the tester comprises an upper platform and a lower platform which are arranged up and down, the upper platform is connected with a lifting driving mechanism, the lower platform is connected with a fixed base in a swinging mode, the calibration device comprises a calibration table, and a distance measuring instrument, a force measuring instrument and a display instrument which are arranged on the calibration table, the distance measuring instrument and the force measuring instrument are electrically connected with the display instrument, a distance measuring signal transmission port of the distance measuring instrument and a table board of the calibration table are located on the same horizontal plane, the force measuring instrument is arranged on the calibration table to ensure that the upper platform is firstly pressed on the force measuring instrument when moving downwards, a base column is connected to the bottom of the force measuring instrument, and the base column penetrates through the calibration table and then is supported on the lower platform.

Description

A calibrating device for denitration catalyst compressive strength tester

Technical Field

The utility model relates to a compressive strength test technical field of SCR denitration catalyst specifically is a calibrating device for denitration catalyst compressive strength tester.

Background

The SCR flue gas denitration technology is a main technology in the ultra-low emission situation of a coal-fired power plant, and an SCR denitration catalyst is the core of the technology. The compressive strength of the denitration catalyst is an important measurement index of the catalyst, and strict requirements are provided for the compressive strength from the whole process of production, regeneration, performance tracking detection, scrapping and the like of a catalyst product according to standards such as honeycomb type flue gas denitration catalyst (GB/T-31587), flue gas denitration catalyst regeneration technical specification (GB/T35209), flue gas denitration catalyst detection technical specification (DL/T1286) of a thermal power plant and flue gas denitration catalyst scrapping judgment guide rule (DL/T2090) of the thermal power plant, so that the accuracy and the reliability of a compressive strength tester for detecting the compressive strength of the denitration catalyst are critical.

At present, a pressure testing machine is used as a compression strength tester of a denitration catalyst, the stress state of the pressure testing machine is detected and calibrated at regular intervals to ensure a test result, and the daily test finds that the levelness between an upper platform and a lower platform of the pressure testing machine and the stress uniformity of each point of the platform can greatly influence the compression strength, so that certain deviation can be caused to a catalyst product detection result, and the production, regeneration and scrapping of the product are influenced. Therefore, it is necessary to develop a calibration device and a calibration method thereof, which are reliable and convenient to install and operate, and ensure the accuracy and reliability of the tester.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides a calibrating device for denitration catalyst compressive strength tester, its installation convenient operation can guarantee the reliability and the accuracy of test calibration.

Its technical scheme is such, a calibrating device for denitration catalyst compressive strength tester places on the tester, the tester includes upper mounting, lower platform that sets up from top to bottom, the upper mounting is connected with lift actuating mechanism, swing between lower platform and the fixed baseplate and be connected its characterized in that: the calibration device comprises a calibration table, and a distance measuring instrument, a force measuring instrument and a display instrument which are arranged on the calibration table, wherein the distance measuring instrument and the force measuring instrument are electrically connected with the display instrument, a distance measuring signal transmission port of the distance measuring instrument and a table top of the calibration table are positioned on the same horizontal plane, the force measuring instrument is arranged on the calibration table so as to ensure that the upper platform is firstly pressed on the force measuring instrument when moving downwards, the bottom of the force measuring instrument is connected with a base column, and the base column penetrates through the calibration table and then is supported on the lower platform.

It is further characterized in that:

the tester also comprises a test base, wherein the test base is connected with a top seat through a connecting column, the fixed base is fixed on the test base, and the lifting driving mechanism is fixed on the top seat through a fixed seat;

the lifting driving mechanism is connected with a force application platform, and the force application platform is connected with the upper platform in a matched manner through bolts and nuts;

the bottom of the lower platform is provided with a spherical groove, the top end of the fixed base is provided with a driven ball body, and the driven ball body is clamped in the spherical groove so as to meet the requirement of micro-swing of the lower platform on the fixed base;

the number of the distance measuring instruments and the number of the force measuring instruments are 4, the distance measuring instruments and the force measuring instruments are respectively arranged at 4 end angles of the calibration table, and the arrangement position size of the 4 force measuring instruments is the same as the plane size of the denitration catalyst;

the distance measuring device is embedded in the calibration table, and a distance measuring signal transmission port of the distance measuring sensor and a table top of the calibration table are located on the same horizontal plane;

the force measuring instrument comprises a force measuring bearing table and a force measuring sensor which are connected, the force measuring sensor is arranged on the table surface of the calibration table, when the upper platform moves downwards, the upper platform is firstly pressed on the force measuring bearing table, and the force measuring sensor is connected with the foundation column;

the display instrument comprises a display panel, a distance display, a stress display, a distance display switch and a stress display switch which are correspondingly connected are arranged on the display panel, the distance display is electrically connected with the distance measuring sensor, and the stress display is electrically connected with the force measuring sensor; the number of the distance displays and the number of the stress displays are the same as the number of the distance measuring sensors and the number of the force measuring sensors.

The beneficial effects of the utility model are that, its easy operation is convenient, and the governing speed is fast, can effectively guarantee the accuracy and the reliability of tester, and realized visual at the check in-process, further improved the accuracy of check result to production, regeneration, the performance tracking of catalyst of selling off and scrapping have played important guide effect, have better economic use value.

Drawings

Fig. 1 is a schematic view of an assembly structure of the present invention;

fig. 2 is a schematic front view of the present invention;

fig. 3 is a schematic top view of the present invention.

Detailed Description

As shown in fig. 1-3, the calibrating device for denitration catalyst compressive strength tester of the present invention is placed on a tester, the tester comprises an upper platform 1 and a lower platform 2 which are arranged up and down, the upper platform 1 is connected with a lifting driving mechanism 3, during the testing process, the lifting driving mechanism 3 acts according to instructions to drive the upper platform 1 to descend so as to apply force to a force-measuring pressure-bearing platform 16, the lower platform 2 is connected with a fixed base 4 in a swinging manner, the calibrating device comprises a calibrating platform 5 and a distance measuring instrument 6, a force measuring instrument 7 and a display instrument 8 which are arranged on the calibrating platform 5, the distance measuring instrument 6 and the force measuring instrument 7 are electrically connected with the display instrument 8, a distance measuring signal transmission port 9 of the distance measuring instrument 6 and a platform surface of the calibrating platform 5 are positioned on the same horizontal plane, the force measuring instrument 7 is arranged on the calibrating platform 5 so as to ensure that the upper platform 1 is pressed on the force measuring instrument 7 first when moving down, the bottom of the force measuring instrument 7 is connected with a base column 10, and the base column 10 is supported on the lower stage 2 after penetrating the calibration stand 5.

The tester also comprises a test base 11, the test base 11 is connected with a top seat 13 through a connecting column 12, the fixed base 4 is fixed on the test base 11, and the lifting driving mechanism 3 is fixed on the top seat 13 through a fixed seat 24.

The electric lift that lift actuating mechanism 3 adopted, lift actuating mechanism 3 also can choose for use other existing equipment according to actual conditions to the platform goes up and down under the realization drive can, lift actuating mechanism 3 is connected with application of force platform 14, and application of force platform 14 passes through bolt, nut 15 cooperation with upper mounting plate 1 and is connected.

The bottom of the lower platform 2 is provided with a spherical groove (not shown in the figure), the top end of the fixed base 4 is provided with a driven ball body 23, and the driven ball body 23 is clamped in the spherical groove so as to satisfy the micro-swing of the lower platform 2 on the fixed base 4.

The number of the distance measuring instruments 6 and the number of the force measuring instruments 7 are 4, the distance measuring instruments and the force measuring instruments are respectively arranged at 4 end angles of the calibration table 5, and the arrangement position size of the 4 force measuring instruments 7 is the same as the plane size of the denitration catalyst; the bottom surfaces of the 4 base columns 10 are positioned on the same horizontal plane and are relatively parallel to the table top of the calibration table 5.

The distance measuring device 6 is a distance measuring sensor, the distance measuring device 6 is embedded in the calibration table 5, and a distance measuring signal transmission port 9 of the distance measuring sensor and the table top of the calibration table 5 are located on the same horizontal plane; the force measuring instrument 7 comprises a force measuring pressure bearing platform 16 and a force measuring sensor 17 which are connected, the force measuring sensor 17 is arranged on the table surface of the calibration table 5, when the upper platform 1 moves downwards, the upper platform firstly presses against the force measuring pressure bearing platform 16, and the force measuring sensor 17 is connected with the foundation column 10.

The display instrument 8 comprises a display panel 18, a distance display 19, a stress display 20, a distance display switch 21 and a stress display switch 22 which are correspondingly connected are arranged on the display panel 18, the distance display 19 is electrically connected with the distance measuring sensor, and the stress display 20 is electrically connected with the force measuring sensor 17; the distance display 19 and the force display 20 are the same as the distance measuring sensors and the load cells 17.

The calibration method for the denitration catalyst compressive strength tester comprises the following steps:

s1, before testing, the calibration device is placed between the upper platform 1 and the lower platform 2 of the tester;

s2, turning on the distance display switch 21, that is, R1 in the figure, and recording the values of the 4 distance sensors through the 4 distance displays 19, which are respectively denoted as L1, L2, L3 and L4, and by adjusting the micro-swing lower platform 2, it is required to ensure that the absolute deviation of the recorded values (L1, L2, L3 and L4) of the 4 distance sensors is 0.5 mm; wherein, the distance between the lower platform 2 and the upper platform 1 (the sum of the distance between the ranging signal transmission port 9 and the upper platform 1 and the installation distance between the ranging signal transmission port 9 and the lower platform 2) can be measured by the ranging sensors, the distances can be respectively displayed on 4 distance displays 19, and the lower platform 2 is adjusted according to the numerical values fed back by the 4 ranging sensors, so that the relative levelness between the lower platform 2 and the upper platform 1 can meet the requirement;

s3, opening the stress display switch 22, namely R2 in the figure, lowering the upper platform 1 to apply force to the force-measuring and pressure-bearing table 16, respectively recording the numerical values of 4 force-measuring sensors 17 through 4 stress displays 20, and respectively recording the numerical values as F1, F2, F3 and F4, so as to ensure that the absolute deviation of the recorded numerical values (F1, F2, F3 and F4) of the 4 force-measuring sensors 17 is 400N, and meet the condition that the relative deviation among F1, F2, F3 and F4 is lower than 2%, namely the driving force needs to be larger than 20000N, wherein the relative deviation is the percentage value of the absolute deviation divided by the driving force of the lifting driving mechanism; the force measuring and pressure bearing platform 16 is applied by the upper platform 1, so that the stress conditions of 4 positions between the lower platform 2 and the upper platform 1 can be tested, the stress conditions are displayed on the stress display 20, the lower platform 2 is checked and adjusted according to values fed back by the 4 force measuring sensors 17, and the relative stress of the lower platform 2 and the upper platform 1 is ensured to meet requirements;

and S4, checking the step S2 again, and finishing the calibration of the compressive strength tester after the requirements are met.

The tester is calibrated in advance through the calibrating device, after the calibrating, the calibrating device is taken out, then the tester after the calibrating can be used for testing the test sample (namely the denitration catalyst), and the test sample is positioned on the position where the calibrating device is placed.

For the comparison of being clear, the utility model discloses carry out following experiment and compare:

before calibration, 3 batches of catalyst were sampled, each batch using the same catalyst sample, cut to make 4 test samples, and then tested by a tester with the test results shown in table 1.

Table 1 compressive strength test results 1

Item	Unit of	Sample 1-1	Sample 2-1	Sample 3-1
					Axial compressive strength 1	MPa	1.5	1.7	1.9
Axial compressive strength 2	MPa	1.6	1.9	2.5
					Axial compressive strength 3	MPa	1.8	2.4	2.9
Axial compressive strength 4	MPa	2.1	2.8	3.5
					Mean value of	MPa	1.8	2.2	2.7
Relative Standard Deviation (SD)	％	15.1	22.6	24.9

From the test results in table 1, the same sample has larger test deviation, that is, the deviation of the uncalibrated tester has larger influence on the test results;

then, through the utility model discloses a calibrating device and method are calibrated the tester after, still are to the same batch sample of three group's samples of table 1, test through the tester after the calibration, and the result is shown as table 2:

TABLE 2 compressive Strength test results II

Item	Unit of	Samples 1 to 2	Sample 2-2	Sample 3-2
					Axial compressive strength 1	MPa	2.2	3.1	3.8
Axial compressive strength 2	MPa	2.4	3.1	3.6
					Axial compressive strength 3	MPa	2.3	2.9	3.6
Axial compressive strength 4	MPa	2.3	3.0	3.7
					Mean value of	MPa	2.3	3.0	3.7
Relative Standard Deviation (SD)	％	3.5	3.2	2.6

And, through the utility model discloses a calibrating device and method calibrate the tester after, select three group's samples at random, test through the tester after the calibration, the result is shown as table 3:

table 3 compressive strength test results three

Item	Unit of	Sample No. 4	Sample No. 5	Sample No. 6
					Axial compressive strength 1	MPa	2.5	3.5	4.2
Axial compressive strength 2	MPa	2.8	3.7	4.3
					Axial compressive strength 3	MPa	2.7	3.6	4.2
Axial compressive strength 4	MPa	2.6	3.8	4.3
					Mean value of	MPa	2.7	3.7	4.3
Relative Standard Deviation (SD)	％	4.9	3.5	1.4

According to the experimental tables 2 and 3, after the tester is calibrated by using the calibration device and method of the compressive strength tester, the relative standard deviation of the compressive strength of the catalyst is reduced to be within 5% from 20%, the test randomness is greatly reduced, and the accuracy and reliability of the result are improved, so that the method plays an important guiding role in the production, regeneration, performance tracking and scrapping of the denitration catalyst.

To sum up, the utility model discloses a calibrating device and method, convenient operation, the visual degree of check process is high, and governing speed is fast, and the check result accuracy and reliability are high.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A calibrating device for denitration catalyst compressive strength tester places on the tester, the tester includes upper mounting plate, lower platform that sets up from top to bottom, the upper mounting plate is connected with lift actuating mechanism, swing between lower platform and the fixed baseplate and be connected its characterized in that: the calibration device comprises a calibration table, and a distance measuring instrument, a force measuring instrument and a display instrument which are arranged on the calibration table, wherein the distance measuring instrument and the force measuring instrument are electrically connected with the display instrument, a distance measuring signal transmission port of the distance measuring instrument and a table top of the calibration table are positioned on the same horizontal plane, the force measuring instrument is arranged on the calibration table so as to ensure that the upper platform is firstly pressed on the force measuring instrument when moving downwards, the bottom of the force measuring instrument is connected with a base column, and the base column penetrates through the calibration table and then is supported on the lower platform.

2. The calibrating device for the denitration catalyst compressive strength tester of claim 1, characterized in that: the tester also comprises a test base, wherein the test base is connected with a top seat through a connecting column, the fixed base is fixed on the test base, and the lifting driving mechanism is fixed on the top seat through a fixed seat.

3. The calibrating device for the denitration catalyst compressive strength tester of claim 1, characterized in that: the lifting driving mechanism is connected with the force application platform, and the force application platform is connected with the upper platform through bolts and nuts in a matched mode.

4. The calibrating device for the denitration catalyst compressive strength tester of claim 1, characterized in that: the bottom of the lower platform is provided with a spherical groove, the top end of the fixed base is provided with a driven ball body, and the driven ball body is clamped in the spherical groove so as to meet the requirement of micro-swing of the lower platform on the fixed base.

5. The calibrating device for the denitration catalyst compressive strength tester of claim 1, characterized in that: the device comprises a calibration table, wherein the denitration catalyst is arranged on the calibration table, the distance measuring instruments and the force measuring instruments are respectively provided with 4 end angles, and the arrangement position size of the 4 force measuring instruments is the same as the plane size of the denitration catalyst.

6. The calibrating device for the denitration catalyst compressive strength tester of claim 1, characterized in that: the range finder is embedded in the calibration table, and the range finder signal transmission port of the range finder and the table top of the calibration table are located on the same horizontal plane.

7. The calibrating device for the denitration catalyst compressive strength tester of claim 6, characterized in that: the force measuring instrument comprises a force measuring bearing table and a force measuring sensor which are connected, the force measuring sensor is arranged on the table surface of the calibration table, when the upper platform moves downwards, the upper platform firstly presses against the force measuring bearing table, and the force measuring sensor is connected with the foundation column.

8. The calibrating device for the denitration catalyst compressive strength tester of claim 7, characterized in that: the display instrument comprises a display panel, a distance display, a stress display, a distance display switch and a stress display switch which are correspondingly connected are arranged on the display panel, the distance display is electrically connected with the distance measuring sensor, and the stress display is electrically connected with the force measuring sensor; the number of the distance displays and the number of the stress displays are the same as the number of the distance measuring sensors and the number of the force measuring sensors.

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