CN214744688U

CN214744688U - Sclerometer support is used in boiler pipeline detection

Info

Publication number: CN214744688U
Application number: CN202121262687.8U
Authority: CN
Inventors: 李阳; 张勇; 闫亚弟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-07
Filing date: 2021-06-07
Publication date: 2021-11-16
Anticipated expiration: 2031-06-07

Abstract

The utility model discloses a sclerometer bracket for boiler pipeline detection, which comprises a bearing bin, universal wheels, a cylinder, a first slide block, a lifting plate, a second slide block, a supporting structure, a fixing structure, a third slide block and a sclerometer, wherein four universal wheels are arranged at the bottom of the bearing bin, the cylinder is fixed on the inner walls of the two sides of the bearing bin, the first slide block is fixed on a pressure bar of the cylinder, a chute is arranged on the inner wall of the bottom of the bearing bin, the first slide block is arranged in the chute in a matching way, the lifting plate is arranged right above the bearing bin, a chute is arranged at the bottom of the lifting plate, the second slide block is arranged in the chute in a matching way, the supporting structure is arranged between the first slide block and the second slide block, the fixing structure is fixed on the lifting plate, a chute is arranged above the lifting plate, the third slide block is arranged in the chute in a matching way, the sclerometer is fixed on the third slide block, this device is collapsible, is convenient for accomodate, and stability is strong.

Description

Sclerometer support is used in boiler pipeline detection

Technical Field

The utility model relates to a boiler pipeline check out test set field specifically is a boiler pipeline detects uses sclerometer support.

Background

The manufacturing process of the existing industries depends on a smelting furnace and a boiler, but the smelting furnace and boiler equipment are easy to generate various mechanical faults, so that product leakage is caused to cause fire, serious damage is caused to the equipment, and great threat is generated to life and property safety of people, so that the quality detection of the boiler is very necessary, the hardness detection of a boiler pipeline is an important part of the quality detection of the boiler, and a bracket of excellent hardness detection equipment is also very valuable;

generally do not set up clamping structure in the support of traditional sclerometer, hardness detection time measuring produces easily and rocks, and stability is relatively poor, and the value error of measuring the production is also bigger, and the sclerometer detects time measuring moreover, need adjust repeatedly the detection angle, and is more troublesome, and in addition, traditional support carries inconveniently, can't adjust detection position and height in a flexible way.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a boiler tube detects uses sclerometer support has adopted electronic clamping structure, and stability is stronger, can guarantee that the sclerometer is perpendicular with the measured surface all the time, need not angle of adjustment, and overall structure is collapsible, is convenient for accomodate and carry, can adjust the measuring position in a flexible way.

The purpose of the utility model can be realized by the following technical scheme:

a sclerometer bracket for boiler pipeline detection comprises a bearing bin, universal wheels, an air cylinder, a first slide block, a lifting plate, a second slide block, a supporting structure, a fixing structure, a third slide block and a sclerometer, wherein the bearing bin is a semi-closed bin body, four universal wheels are arranged at the bottom of the bearing bin, the air cylinder is fixed on the inner walls of two sides of the bearing bin, the first slide block is fixed on a pressure bar of the air cylinder, the inner wall of the bottom of the bearing bin is provided with a chute, the first slide block is arranged in the chute in a matching way, the lifting plate is arranged right above the bearing bin, the bottom of the lifting plate is provided with a chute, the second slide block is arranged in the chute in a matching way, the supporting structure is arranged between the first slide block and the second slide block, the fixing structure is fixed on the lifting plate, the chute is arranged above the lifting plate, and the third slide block is arranged in the chute in a matching way, the hardness tester is fixed on the third slide block.

As a further aspect of the present invention: the supporting structure comprises a first rotating shaft, a second rotating shaft, a first supporting rod, a second supporting rod, a third rotating shaft, a fourth rotating shaft, a fifth rotating shaft, a third supporting rod, a fourth supporting rod, a sixth rotating shaft, a seventh rotating shaft and an eighth rotating shaft, wherein the bottom end of the first supporting rod is installed on a first sliding block through the cooperation of the first rotating shaft, the bottom end of the second supporting rod is installed on the first sliding block through the cooperation of the second rotating shaft, the first supporting rod and the second supporting rod are arranged in a crossed and staggered mode, the first supporting rod and the second supporting rod are assembled through the cooperation of the crossing point of the third rotating shaft, the bottom end of the third supporting rod is installed on a second sliding block through the cooperation of the fourth rotating shaft, the bottom end of the fourth supporting rod is installed on the second sliding block through the cooperation of the fifth rotating shaft, the third supporting rod and the fourth supporting rod are arranged in a crossed and staggered mode, the third supporting rod and the fourth supporting rod are assembled through the cooperation of the crossing point of the sixth rotating shaft, the terminal dislocation of first bracing piece and fourth bracing piece is crossing, first bracing piece and fourth bracing piece pass crosspoint cooperation equipment through the eighth pivot, the terminal dislocation of second bracing piece and third bracing piece is crossing, second bracing piece and third bracing piece pass crosspoint cooperation equipment through the seventh pivot.

As a further aspect of the present invention: the fixing structure comprises a stepping motor, threaded columns, fixing plates and non-slip mats, the stepping motor is fixed on the lifting plate, the threaded columns are installed at the output end of the stepping motor and fixed on the lifting plate, threaded holes and round holes are formed in the two fixing plates, the threaded columns and the fixing columns sequentially penetrate through the threaded holes and the round holes respectively, and the non-slip mats are fixed on the fixing plates.

As a further aspect of the present invention: the universal wheel is provided with a brake pad, the hardness meter is of a 7-shaped structure, and the hardness machine is provided with a hardness display dial.

As a further aspect of the present invention: the thread column is provided with a circular ring in the center position, the thread column is provided with two opposite threads, the threads are symmetrical by taking the circular ring as the center, and the height of the hardness tester is the same as the height of the circular ring.

As a further aspect of the present invention: the two anti-skid pads are oppositely arranged, and the surfaces of the anti-skid pads are arc-shaped.

The utility model has the advantages that: the utility model improves the stability of the whole device by arranging the fixed structure, reduces the measurement error, and the hardometer is always positioned at the central position of the fixed structure, so that the hardometer is always vertical to the angle of the measured surface, thereby avoiding the trouble of repeatedly adjusting the measurement angle;

hardness meter, fixed knot construct and bear the weight of all nimble removals in the storehouse in the device for the measurement to the boiler tube of different models size becomes more convenient, swift, and folding bearing structure's setting can make the device be convenient for fold and accomodate, and is more nimble and portable.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a general schematic view of the present invention;

FIG. 2 is a schematic view of the supporting structure of the present invention;

FIG. 3 is a schematic view of the fixing structure of the present invention;

FIG. 4 is a front view of the three-dimensional structure of the present invention;

FIG. 5 is a side view of the three-dimensional structure of the present invention;

in the figure: 1. a load bearing bin; 2. a universal wheel; 3. a cylinder; 4. a first slider; 5. a lifting plate; 6. a second slider; 7. a support structure; 8. a fixed structure; 9. a third slider; 10. a hardness meter; 71. a first rotating shaft; 72. a second rotating shaft; 73. a first support bar; 74. a second support bar; 75. a third rotating shaft; 76. a fourth rotating shaft; 77. a fifth rotating shaft; 78. a third support bar; 79. a fourth support bar; 710. a sixth rotating shaft; 711. a seventh rotating shaft; 712. an eighth rotating shaft; 81. a stepping motor; 82. a threaded post; 83. fixing a column; 84. a fixing plate; 85. a non-slip mat.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in figures 1-5, a sclerometer bracket for boiler pipeline detection comprises a bearing bin 1, universal wheels 2, a cylinder 3, a first slide block 4, a lifting plate 5, a second slide block 6, a supporting structure 7, a fixed structure 8, a third slide block 9 and a sclerometer 10, wherein the bearing bin 1 is a semi-closed bin body, four universal wheels 2 are arranged at the bottom of the bearing bin 1, the cylinder 3 is fixed on the inner wall of the two sides of the bearing bin 1, the first slide block 4 is fixed on a pressure bar of the cylinder 3, the inner wall of the bottom of the bearing bin 1 is provided with a chute, the first slide block 4 is arranged in the chute in a matching way, the lifting plate 5 is arranged right above the bearing bin 1, the bottom of the lifting plate 5 is provided with a chute, the second slide block 6 is arranged in the chute in a matching way, the supporting structure 7 is arranged between the first slide block 4 and the second slide block 6, the fixed structure 8 is fixed on the lifting plate 5, the chute is arranged above the lifting plate 5, the third slider 9 is arranged in the sliding groove in a matching mode, and the hardness tester 10 is fixed on the third slider 9.

The supporting structure 7 comprises a first rotating shaft 71, a second rotating shaft 72, a first supporting rod 73, a second supporting rod 74, a third rotating shaft 75, a fourth rotating shaft 76, a fifth rotating shaft 77, a third supporting rod 78, a fourth supporting rod 79, a sixth rotating shaft 710, a seventh rotating shaft 711 and an eighth rotating shaft 712, wherein the bottom end of the first supporting rod 73 is installed on the first slider 4 in a matching way through the first rotating shaft 71, the bottom end of the second supporting rod 74 is installed on the first slider 4 in a matching way through the second rotating shaft 72, the first supporting rod 73 and the second supporting rod 74 are arranged in a crossed and staggered way, the first supporting rod 73 and the second supporting rod 74 are assembled in a matching way through the third rotating shaft 75, the bottom end of the third supporting rod 78 is installed on the second slider 6 in a matching way through the fourth rotating shaft 76, the bottom end of the fourth supporting rod 79 is installed on the second slider 6 in a matching way through the fifth rotating shaft 77, and the third supporting rod 78 and the fourth supporting rod 79 are arranged in a crossed and staggered way, the third supporting rod 78 and the fourth supporting rod 79 penetrate through a cross point through a sixth rotating shaft 710 to be assembled in a matched mode, the tail ends of the first supporting rod 73 and the fourth supporting rod 79 are crossed in a staggered mode, the first supporting rod 73 and the fourth supporting rod 79 penetrate through a cross point through an eighth rotating shaft 712 to be assembled in a matched mode, the second supporting rod 74 and the tail end of the third supporting rod 78 are crossed in a staggered mode, the second supporting rod 74 and the third supporting rod 78 penetrate through a cross point through a seventh rotating shaft 711 to be assembled in a matched mode, the structure plays a supporting role, the fixing structure 8 and the hardness tester 10 can be driven to move up and down, the device can be controlled to be stored, and convenience is achieved;

the fixing structure 8 comprises a stepping motor 81, threaded columns 82, fixing columns 83, fixing plates 84 and anti-slip pads 85, the stepping motor 81 is fixed on the lifting plate 5, the threaded columns 82 are installed at the output end of the stepping motor 81, the fixing columns 83 are fixed on the lifting plate 5, threaded holes and round holes are formed in the two fixing plates 84, the threaded columns 82 and the fixing columns 83 sequentially penetrate through the threaded holes and the round holes respectively, the anti-slip pads 85 are fixed on the fixing plates 84, and the fixing structure can clamp a boiler pipeline, so that the whole equipment is kept stable, and measurement errors are reduced;

the universal wheel 2 is provided with a brake pad, the hardness tester 10 is in a 7-shaped structure, the hardness tester 10 is provided with a hardness display dial, the brake pad is convenient to control and move and fix, and the dial can more conveniently observe the hardness of the boiler pipeline, so that the detection is more intuitive;

the threaded column 82 is provided with a circular ring at the central position, the threaded column 82 is provided with two opposite-direction threads, the threads are symmetrical by taking the circular ring as the center, and the height of the hardness tester 10 is the same as that of the circular ring, so that the height of the hardness tester 10 can be always maintained at the central positions of the two fixing plates 84, the angle between the hardness tester 10 and the surface of the pipeline to be tested can be always kept vertical, the angle does not need to be adjusted, and the operation is simple;

two non-slip mats 85 set up relatively, and non-slip mat 85 surface is the arc, can make the centre gripping to boiler tube more firm, and the stability of device is stronger.

The utility model discloses a theory of operation: when the device works, the device is moved to the position below a boiler pipeline, the cylinder 3 is started, the cylinder 3 is pushed outwards, the first sliding block 4 is pushed to the middle position, due to the action of the supporting structure 7, the second sliding block 6 simultaneously moves to the middle position, the lifting plate 5 is lifted upwards, the cylinder 3 is closed when the lifting plate rises to a proper height, the boiler pipeline is positioned between the two fixing plates 84, the stepping motor 81 is started, the stepping motor 81 drives the threaded column 82 to rotate, the two fixing plates 84 perform parallel reverse movement along the threads on the threaded column 82, when the fixing plates 84 tightly clamp the boiler pipeline, the stepping motor 81 is closed, the sclerometer 10 is adjusted to a proper position, hardness measurement is performed on the boiler pipeline, when the use is finished, the stepping motor 81 is started to perform reverse movement, the fixing plates 84 loosen the boiler pipeline, the device is moved out of the position below the boiler pipeline, the cylinder 3 is opened to perform reverse movement, the structure is received in the load-bearing compartment 1.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims

1. A sclerometer support for boiler pipeline detection is characterized by comprising a bearing bin (1), universal wheels (2), air cylinders (3), a first slide block (4), a lifting plate (5), a second slide block (6), a supporting structure (7), a fixing structure (8), a third slide block (9) and a sclerometer (10), wherein the bearing bin (1) is a semi-closed bin body, four universal wheels (2) are arranged at the bottom of the bearing bin (1), the air cylinders (3) are fixed on the inner walls of the two sides of the bearing bin (1), the first slide block (4) is fixed on an air pressure rod of the air cylinders (3), the inner wall of the bottom of the bearing bin (1) is provided with a chute, the first slide block (4) is arranged in the chute in a matching manner, the lifting plate (5) is arranged right above the bearing bin (1), the bottom of the lifting plate (5) is provided with a chute, and the second slide block (6) is arranged in the chute in a matching manner, the supporting structure (7) is arranged between the first sliding block (4) and the second sliding block (6), the fixing structure (8) is fixed on the lifting plate (5), a sliding groove is formed in the upper portion of the lifting plate (5), the third sliding block (9) is arranged in the sliding groove in a matched mode, and the hardness tester (10) is fixed on the third sliding block (9).

2. The boiler pipe inspection durometer support according to claim 1, wherein the support structure (7) includes a first rotating shaft (71), a second rotating shaft (72), a first support rod (73), a second support rod (74), a third rotating shaft (75), a fourth rotating shaft (76), a fifth rotating shaft (77), a third support rod (78), a fourth support rod (79), a sixth rotating shaft (710), a seventh rotating shaft (711) and an eighth rotating shaft (712), the bottom end of the first support rod (73) is installed on the first slider (4) through the first rotating shaft (71) in a matching manner, the bottom end of the second support rod (74) is installed on the first slider (4) through the second rotating shaft (72) in a matching manner, the first support rod (73) and the second support rod (74) are arranged in a crossed and staggered manner, and the first support rod (73) and the second support rod (74) are assembled through the third rotating shaft (75) in a matching manner, the bottom end of the third supporting rod (78) is arranged on the second sliding block (6) in a matching way through a fourth rotating shaft (76), the bottom end of the fourth supporting rod (79) is arranged on the second sliding block (6) in a matching way through a fifth rotating shaft (77), the third supporting rod (78) and the fourth supporting rod (79) are arranged in a crossed and staggered mode, the third supporting rod (78) and the fourth supporting rod (79) are assembled in a matched mode through a sixth rotating shaft (710) passing through a cross point, the ends of the first supporting rod (73) and the fourth supporting rod (79) are crossed in a staggered way, the first supporting rod (73) and the fourth supporting rod (79) are assembled in a matched mode through an eighth rotating shaft (712) passing through a cross point, the second supporting rod (74) is crossed with the tail end of the third supporting rod (78) in a staggered way, the second support rod (74) and the third support rod (78) are assembled in a matched mode through a seventh rotating shaft (711) passing through a cross point.

3. The boiler pipeline inspection durometer support according to claim 1, wherein the fixing structure (8) comprises a stepping motor (81), a threaded column (82), fixing columns (83), a fixing plate (84) and a non-slip mat (85), the stepping motor (81) is fixed on the lifting plate (5), the threaded column (82) is installed at an output end of the stepping motor (81), the fixing column (83) is fixed on the lifting plate (5), threaded holes and round holes are formed in the two fixing plates (84), the threaded column (82) and the fixing column (83) sequentially penetrate through the threaded holes and the round holes respectively, and the non-slip mat (85) is fixed on the fixing plate (84).

4. The boiler pipeline inspection durometer support according to claim 1, wherein the universal wheels (2) are provided with brake pads, the durometer (10) is of a 7-shaped structure, and the durometer (10) is provided with a hardness display dial.

5. The boiler pipe testing hardness tester support according to claim 3, wherein a circular ring is arranged at the center of the threaded column (82), two opposite-direction threads are arranged on the threaded column (82), the threads are symmetrical around the circular ring, and the height of the hardness tester (10) is the same as that of the circular ring.

6. The boiler pipeline inspection durometer support according to claim 3, wherein the two anti-slip pads (85) are disposed opposite to each other, and the surface of the anti-slip pad (85) is arc-shaped.