CN114235557A

CN114235557A - Special equipment inspection detection device convenient to use

Info

Publication number: CN114235557A
Application number: CN202111573212.5A
Authority: CN
Inventors: 惠楠; 潘峰; 王碧峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-21
Filing date: 2021-12-21
Publication date: 2022-03-25
Anticipated expiration: 2041-12-21
Also published as: CN114235557B

Abstract

The invention discloses a convenient-to-use special equipment inspection detection device, which relates to the technical field of special equipment inspection and comprises a measurement seat and a measurement assembly, wherein a detection box is installed at the top of the measurement seat, auxiliary assemblies are installed on two sides of the detection box, and an auxiliary assembly auxiliary frame, a bracket, an air hole, a transmission ball, a 3D scanning camera, a reset spring, a clamping seat, a contact wheel and a pressure type contact piece are arranged on the auxiliary assembly auxiliary frame. According to the invention, through the mutually matched arrangement of the components, raw materials can be conveniently taken and placed, the surface of the pipeline can be scanned and recorded through the 3D scanning camera while feeding, further, the surface information of the pipeline can be recorded, the observation of the pipeline is facilitated, the situation that the surface of the pipeline is raised is avoided, the pipeline can be initially limited through the bearing seat and the fixing component, the stability during detection is improved, and the detection component can be used for detecting the thickness of the pipeline and the internal and external bearing pressure, so that the diversified detection of the equipment is improved.

Description

Special equipment inspection detection device convenient to use

Technical Field

The invention relates to the technical field of special equipment inspection, in particular to a convenient-to-use special equipment inspection and detection device.

Background

The special equipment refers to boilers with high life safety and danger, pressure vessels (including gas cylinders, the same below), pressure pipelines, elevators, hoisting machinery, passenger ropeways, large-scale amusement facilities and special motor vehicles in yards (factories). Wherein, the boiler, the pressure container (containing a gas cylinder) and the pressure pipeline are special pressure-bearing equipment; elevators, hoisting machinery, passenger ropeways and large-scale amusement facilities are electromechanical special equipment, and pressure pipelines refer to all pipelines bearing internal pressure or external pressure, so that the pressure pipelines are widely applied and need to be detected by detection equipment after production.

The detection device on the market has the functional singleness, can not diversely detect to the pipeline for the testing process need separately to accomplish through a plurality of equipment, influences its detection achievement efficiency, and has promoted labour personnel's working strength.

Disclosure of Invention

The invention aims to provide a special equipment inspection and detection device which is convenient to use, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a special equipment inspection and detection device convenient to use comprises a measuring seat and a measuring component, wherein a detection box is installed at the top of the measuring seat, auxiliary components are installed on two sides of the detection box, light supplementing lamps are installed on two sides of the surface of the detection box, a bearing seat is installed in the middle of the measuring seat, each auxiliary component comprises an auxiliary frame, a bracket, an air hole, a transmission ball, a 3D scanning camera, a reset spring, a clamping seat, a contact wheel and a pressure type contact piece, the bracket is installed at the bottom of the auxiliary frame, the air hole is formed in the surface of the bracket, the transmission ball is installed on the bracket, the 3D scanning camera is installed on two sides of the bracket, the reset spring is arranged above the auxiliary frame, the other end of the reset spring is connected with the clamping seat, the contact wheel is installed on two sides of the clamping seat, and the surface of the contact wheel is provided with the pressure type contact piece, the measuring component is arranged on two sides of the measuring seat, and the bottom of the measuring component is provided with a sliding rail.

Preferably, bear the seat inner wall and install spacing subassembly, just spacing subassembly includes arc frame, bolster, buffering lug, pneumatic slider, spacing, pivot and stopper, the embedding of arc frame inner wall has the bolster, just bolster surface evenly distributed has buffering lug, pneumatic slider install in inside the arc frame, just pneumatic slider output is connected with spacing, the spacing other end is connected with the pivot, just the pivot other end is connected with the stopper.

Preferably, the limiting frame is in sliding connection with the arc frame through the pneumatic sliding block, the surface of the limiting frame is of an arc structure, and the limiting frame is symmetrically distributed around the center line of the arc frame.

Preferably, the clamping seat is elastically connected with the auxiliary frame through the return spring, the clamping seat is slidably connected with the auxiliary frame, and the clamping seat and the bracket are both arc-shaped.

Preferably, the measuring assembly comprises a hydraulic push rod, a bracket, a transfer shaft, an adjusting motor, a mounting rod, a detecting seat, a detecting air bag, a driving telescopic rod, a detecting frame, an adjusting air bag, an elastic linear rod and a detecting contact, the output end of the hydraulic push rod is connected with the bracket, the top of the bracket is connected with a transfer shaft, the middle part of the transfer shaft is connected with the adjusting motor, the top of the adapter shaft is connected with the mounting rod, one side of the mounting rod is connected with a detection seat, the surface of the detection seat is provided with a detection air bag, the middle part of the detection seat is provided with the driving telescopic rod, the output end of the driving telescopic rod is connected with the detection frame, the middle part of the detection frame is provided with the adjusting air bag, and the adjusting air bag is externally connected with the elastic linear rod, and the other end of the elastic linear rod is connected with the detection contact.

Preferably, the detection seat is connected with the adapter shaft in a rotating mode through the adjusting motor, the detection seat and the detection air bag are embedded, and the detection air bag is of a circular ring-shaped structure.

Preferably, the elastic linear rods are in transmission connection with the detection frame through the adjusting air bags, and the elastic linear rods are distributed circumferentially around the surface of the detection frame.

Preferably, a hydraulic lifting rod is installed at the top of the detection box, the output end of the hydraulic lifting rod is connected with a pressure measuring plate, a local pressure receiving block is installed on the surface of the pressure measuring plate, a main control plate is installed inside the measuring seat, and a wireless transceiver module is installed on the surface of the main control plate.

Preferably, detection frame one side is connected with the dehumidification subassembly, just the dehumidification subassembly includes straight-bar, elastic connecting rod, dehumidification frame, dehumidification cotton and moisture absorption haydite, the straight-bar other end is connected with the elastic connecting rod, just the elastic connecting rod outer end is connected with the dehumidification frame, dehumidification frame surface coating has the dehumidification cotton, just the inside moisture absorption haydite that is provided with of dehumidification frame.

Preferably, the dehumidifying rack is elastically connected with the straight rod through the elastic connecting rod, four groups of dehumidifying racks are arranged, and the surface of the dehumidifying rack is of a hollow structure.

The invention provides a special equipment inspection and detection device convenient to use, which has the following beneficial effects: the special equipment inspection and detection device convenient to use can conveniently take and place raw materials by adopting the mutual matching arrangement of the multiple components, can scan and record the surface of a pipeline through the 3D scanning camera while feeding, can further record the surface information of the pipeline, is convenient for observation, avoids the situation that the surface of the pipeline is raised, can preliminarily limit the pipeline through the bearing seat and the fixing component, improves the stability during inspection, and can detect the thickness of the pipeline and the internal and external bearing pressure through the detection component so as to improve the diversified inspection of the equipment;

1. according to the invention, through the mutual matching arrangement between the detection box and the auxiliary assembly, the clamping seat can be suitable for detection of pressure pipes with different sizes by matching the reset spring and the clamping seat in the bracket which is sent from one side of the box body to the bottom of the auxiliary frame, the conveying process of the pressure pipes is facilitated through the transmission ball in the middle of the bracket, dust and impurities on the surface of the pipeline can be removed through the air hole, the scanning process is prevented from being influenced by the dust and impurities, the surface information of the pipeline is recorded through the 3D scanning camera in the feeding process, the observation process is facilitated, and when the contact wheel is in contact with the surface of the pipeline, the length and the size of the pipeline can be measured, so that diversified detection is realized.

2. According to the invention, through the mutual matching arrangement of the bearing seat and the limiting assembly, when the pipeline is placed on the surface of the limiting assembly, the friction coefficient between the bearing seat and the limiting assembly is increased through the pillow and the buffering lug, the arc-shaped limiting frame can be pushed to move along the inner part of the arc frame under the action of the pneumatic sliding block, and the limiting block at the outer end of the limiting frame is pushed out to abut against the outer part of the pipeline, so that the pipeline can be limited, and the condition that the pipeline generates offset rotation during measurement to influence the detection process is avoided.

3. According to the invention, the measuring assembly and the measuring seat are matched with each other, so that the mounting rod can be driven to rotate under the driving of the adjusting motor, the feeding process is prevented from being influenced by the mounting rod, the support can be driven to move along the sliding rail under the pushing of the hydraulic push rod, the detecting seat can be close to and attached to the surface of the pipeline, the annular detecting air bag on the surface of the detecting seat can be closely attached to the outer wall of the pipeline, the wall thickness of the pipeline can be detected through the sensor module on the surface of the detecting seat, and whether the pipeline reaches the standard or not can be detected.

4. When the detection seats on the two sides are close to the extrusion pipeline at the same time, the detection frame can be pushed to the interior of the pipeline under the driving of the driving telescopic rod, the air bag is adjusted to be inflated continuously, the adjustment air bag is expanded to push the extrusion elastic linear rod, the detection contact is pushed to abut against the inner wall of the pipeline through the elastic linear rod, the pressure bearing capacity of the interior of the pipeline can be measured, the pressure measuring plate can move downwards under the driving of the hydraulic lifting rod after the pressure of the inner wall is measured, the external pressure bearing condition of the pipeline can be detected by matching with the local pressure bearing block, and the detection comprehensiveness is improved.

5. According to the invention, through the mutual matching arrangement of the measuring component and the dehumidifying component, the measuring component can extend the detection frame into the inner wall of the pipeline, meanwhile, the dehumidifying cotton on the surface of the arc frame can be contacted with the inner wall of the pipeline through the measuring component, dust can be wiped, meanwhile, moist water vapor on the inner wall can be wiped, and moisture in the inner wall can be adsorbed through the moisture absorption ceramsite arranged in the surface of the arc frame, so that the dryness in the inner wall is improved.

Drawings

FIG. 1 is a schematic overall structure diagram of a special equipment inspection and detection device convenient to use;

FIG. 2 is a schematic side view of an auxiliary assembly of the special equipment inspection and detection device convenient to use;

FIG. 3 is an enlarged structural diagram of the inspection and detection device for special equipment in FIG. 1;

FIG. 4 is a schematic side view of a measuring assembly of the special equipment inspection and detection device convenient to use;

FIG. 5 is a schematic side view of a carrier base of the special equipment inspection and detection device of the present invention;

FIG. 6 is an enlarged schematic view of the inspection and detection device for special equipment in FIG. 5;

FIG. 7 is a schematic diagram of a pressure measuring plate structure of the special equipment inspection and detection device convenient to use;

fig. 8 is a schematic structural diagram of a dehumidifying component of a special equipment inspection and detection device convenient to use.

In the figure: 1. a measuring seat; 2. a detection box; 3. an auxiliary component; 301. an auxiliary frame; 302. a bracket; 303. air holes; 304. a transmission ball; 305. a 3D scanning camera; 306. a return spring; 307. a clamping seat; 308. a contact wheel; 309. a pressure type contact piece; 4. a light supplement lamp; 5. a bearing seat; 6. a measurement assembly; 601. a hydraulic push rod; 602. a support; 603. a transfer shaft; 604. adjusting the motor; 605. mounting a rod; 606. a detection seat; 607. detecting the air bag; 608. driving the telescopic rod; 609. a detection frame; 610. adjusting the air bag; 611. an elastic linear rod; 612. detecting a contact; 7. a hydraulic lifting rod; 8. a limiting component; 801. an arc frame; 802. a pillow pad; 803. a buffer bump; 804. a pneumatic slider; 805. a limiting frame; 806. a rotating shaft; 807. a limiting block; 9. a partially compressed block; 10. a main control board; 11. a wireless transceiver module; 12. a dehumidification assembly; 1201. a straight rod; 1202. an elastic connecting rod; 1203. a dehumidification frame; 1204. dehumidifying cotton; 1205. moisture absorption ceramsite; 13. measuring a pressure plate; 14. a slide rail.

Detailed Description

Referring to fig. 1-8, the present invention provides a technical solution: a special equipment inspection and detection device convenient to use comprises a measurement seat 1 and a measurement component 6, wherein a detection box 2 is installed at the top of the measurement seat 1, auxiliary components 3 are installed on two sides of the detection box 2, light supplement lamps 4 are installed on two sides of the surface of the detection box 2, a bearing seat 5 is installed in the middle of the measurement seat 1, an auxiliary frame 301, a bracket 302, an air hole 303, a transmission ball 304, a 3D scanning camera 305, a reset spring 306, a clamping seat 307, a contact wheel 308 and a pressure type contact piece 309 are installed at the bottom of the auxiliary frame 301, the surface of the bracket 302 is provided with the air hole 303, the transmission ball 304 is installed on the bracket 302, the 3D scanning camera 305 is installed on two sides of the bracket 302, the reset spring 306 is arranged above the auxiliary frame 301, the other end of the reset spring 306 is connected with the clamping seat 307, the contact wheels 308 are installed on two sides of the clamping seat 307, and the surface of the contact wheel 308 is provided with the pressure type contact piece 309, the measuring assembly 6 is arranged on two sides of the measuring seat 1, the bottom of the measuring assembly 6 is provided with a sliding rail 14, the clamping seat 307 is elastically connected with the auxiliary frame 301 through a return spring 306, the clamping seat 307 is slidably connected with the auxiliary frame 301, the clamping seat 307 and the bracket 302 are both arc-shaped, the top of the detection box 2 is provided with a hydraulic lifting rod 7, the output end of the hydraulic lifting rod 7 is connected with a pressure measuring plate 13, the surface of the pressure measuring plate 13 is provided with a local pressure-bearing block 9, the inside of the measuring seat 1 is provided with a main control plate 10, and the surface of the main control plate 10 is provided with a wireless transceiver module 11;

in particular, by arranging the detection box 2 and the auxiliary assembly 3 in a mutually matched way, the pipeline is conveyed from one side of the box body to the bracket 302 at the bottom of the auxiliary frame 301, the cooperation of the return spring 306 and the holder 307 enables the holder 307 to be suitable for the inspection of pressure pipes of different sizes, improves the versatility, the conveying process is facilitated by the transmission ball 304 in the middle of the bracket 302, dust and impurities on the surface of the pipeline can be removed through the air hole 303, the scanning process is prevented from being influenced, and the 3D scanning camera 305 records the surface information of the pipeline in the feeding process, thereby facilitating the observation process, being beneficial to detecting whether the pipeline surface has protrusions and other unqualified conditions, when the contact wheel 308 and the pressure type contact piece 309 are in contact with the surface of the pipeline, the length dimension of the pipeline can be measured, and detection diversification is realized.

Referring to fig. 1, 3, 4 and 7, the measuring assembly 6 includes a hydraulic ram 601, a bracket 602, an adapting shaft 603, an adjusting motor 604, a mounting rod 605, a detecting seat 606, a detecting airbag 607, a driving telescopic rod 608, a detecting frame 609, an adjusting airbag 610, an elastic linear rod 611 and a detecting contact 612, the output end of the hydraulic ram 601 is connected with the bracket 602, the top of the bracket 602 is connected with the adapting shaft 603, the middle of the adapting shaft 603 is connected with the adjusting motor 604, the top of the adapting shaft 603 is connected with the mounting rod 605, one side of the mounting rod 605 is connected with the detecting seat 606, the surface of the detecting seat 606 is provided with the detecting airbag 607, the middle of the detecting seat 606 is provided with the driving telescopic rod 608, the output end of the driving telescopic rod 608 is connected with the detecting frame 609, the middle of the detecting frame 609 is provided with the adjusting airbag 610, the outer of the adjusting airbag 610 is connected with the elastic linear rod 611, the other end of the elastic linear rod 611 is connected with the detecting contact 612, the detection seat 606 is rotationally connected with the adapting shaft 603 through the adjusting motor 604, the detection seat 606 and the detection air bag 607 are embedded, the detection air bag 607 is in an annular structure, the elastic linear rod 611 is in transmission connection with the detection frame 609 through the adjusting air bag 610, and the elastic linear rod 611 is distributed in a circumferential shape relative to the surface of the detection frame 609;

the specific operation is as follows, through the mutually matched arrangement between the measuring assembly 6 and the measuring seat 1, the mounting rod 605 can be driven to rotate under the driving of the adjusting motor 604, the adjusting motor 604 at the position is connected with the mounting rod 605 through a gear set, the rotatable mounting rod 605 can realize the storage of equipment, meanwhile, the feeding process is prevented from being influenced, the bracket 602 can be driven to move along the slide rail 14 under the pushing of the hydraulic push rod 601, the detecting seat 606 can be close to and attached to the surface of the pipeline, the annular detecting air bag 607 on the surface can be closely attached to the outer wall of the pipeline, the sensor module distributed on the surface of the detecting air bag 607 can measure the wall thickness of the pipeline through the contact with the pipe orifice, whether the pipeline reaches the standard or not is detected, and when the detecting seats 606 at both sides are close to and extrude the pipeline, the detecting bracket 609 can be driven to be pushed to the interior of the pipeline under the driving of the telescopic rod 608, meanwhile, the adjusting air bag 610 is continuously inflated, so that the adjusting air bag 610 is expanded to push and extrude the elastic linear rod 611, the detection contact 612 is pushed to abut against the inner wall of the pipeline through the elastic linear rod 611, the pressure bearing capacity of the interior of the pipeline can be measured, the pressure measuring plate 13 can move downwards under the driving of the hydraulic lifting rod 7 after the pressure of the inner wall is measured, the external pressure bearing condition of the pipeline can be detected by matching with the local pressure bearing block 9, and the detection comprehensiveness is improved;

referring to fig. 1, 5 and 6, the inner wall of the bearing seat 5 is provided with a limiting assembly 8, the limiting assembly 8 includes an arc frame 801, a pillow 802, a buffering bump 803, a pneumatic slider 804, a limiting frame 805, a rotating shaft 806 and a limiting block 807, the pillow 802 is embedded in the inner wall of the arc frame 801, the buffering bump 803 is uniformly distributed on the surface of the pillow 802, the pneumatic slider 804 is installed in the arc frame 801, the output end of the pneumatic slider 804 is connected with the limiting frame 805, the other end of the limiting frame 805 is connected with the rotating shaft 806, the other end of the rotating shaft 806 is connected with the limiting block 807, the limiting frame 805 is in sliding connection with the arc frame 801 through the pneumatic slider 804, the surface of the limiting frame 805 is in an arc structure, and the limiting frames 805 are symmetrically distributed with respect to the center line position of the arc frame 801;

the concrete operation is as follows, through the mutual matching arrangement between the bearing seat 5 and the limiting component 8, when the pipeline is placed on the arc frame 801 on the surface of the limiting component 8, the friction coefficient between the pipeline and the bearing seat is improved through the pillow 802 and the buffering convex block 803, the arc-shaped limiting frame 805 can be pushed to move along the inside of the arc frame 801 under the action of the pneumatic sliding block 804, the limiting block 807 at the outer end of the limiting frame 805 is pushed out to abut against the outside of the pipeline, the rotating shaft 806 is further arranged on one side of the limiting block 807 to be better attached to the surface of the pipeline, so that the pipeline can be limited, and the situation that the pipeline generates deflection rotation during measurement to influence the detection process is avoided;

referring to fig. 1, 4 and 8, one side of the inspection frame 609 is connected with a dehumidifying component 12, the dehumidifying component 12 includes a straight rod 1201, an elastic connecting rod 1202, a dehumidifying frame 1203, dehumidifying cotton 1204 and moisture-absorbing ceramsite 1205, the other end of the straight rod 1201 is connected with the elastic connecting rod 1202, the outer end of the elastic connecting rod 1202 is connected with the dehumidifying frame 1203, the surface of the dehumidifying frame 1203 is wrapped with the dehumidifying cotton 1204, the moisture-absorbing ceramsite 1205 is arranged inside the dehumidifying frame 1203, the dehumidifying frame 1203 is elastically connected with the straight rod 1201 through the elastic connecting rod 1202, the dehumidifying frame 1203 is provided with four groups, and the surface of the dehumidifying frame 1203 is in a hollow structure;

the concrete operation is as follows, through the mutually supporting setting between measuring component 6 and the dehumidification subassembly 12, the inner wall contact that can pass through dehumidification cotton 1204 on dehumidification frame 1203 surface can with the pipeline when measuring component 6 stretches into the pipeline inner wall with detection frame 609, can also wipe the moist steam of inner wall when wiping the dust, and adsorb inside moisture through the built-in moisture absorption haydite 1205 in dehumidification frame 1203 surface, promote its inside aridity, this dehumidification frame 1203 can last to support at the pipeline inner wall under elastic connecting rod 1202 can act on, make things convenient for its use.

In conclusion, when the special equipment inspection and detection device convenient to use is used, a pressure pipeline is firstly fed from one side of the detection box 2 and is in contact with the bracket 302 at the bottom of the auxiliary frame 301 when the pipeline is fed, the clamping seat 307 can be suitable for detection of pressure pipes with different sizes by matching with the reset spring 306 and the clamping seat 307, the universality of the device is improved, the conveying process of the device is facilitated by the transmission ball 304 in the middle of the bracket 302, dust and impurities on the surface of the pipeline can be removed by the air hole 303, the scanning process is prevented from being influenced by the dust and impurities, the surface information of the pipeline is recorded by the 3D scanning camera 305 in the feeding process, the observation process is facilitated, the unqualified conditions such as protrusion and the like on the surface of the pipeline can be detected, the length and size of the pipeline can be measured when the contact wheel 308 is in contact with the surface of the pressure type contact piece 309, and the detection diversification is realized, when the pipeline is placed on the arc frame 801 on the surface of the limiting component 8, the friction coefficient between the pipeline and the pillow 802 and the buffering bump 803 is increased, the arc-shaped limiting frame 805 can be pushed to move along the inside of the arc frame 801 under the action of the pneumatic sliding block 804, the limiting block 807 at the outer end of the limiting frame 805 is pushed out to abut against the outside of the pipeline, the rotating shaft 806 is further arranged on one side of the limiting block 807 to be better attached to the surface of the pipeline, so that the pipeline can be limited, the phenomenon that the pipeline deflects and rotates during measurement to influence the detection process is avoided, then the mounting rod 605 can be driven to rotate by the adjusting motor 604, the adjusting motor 604 is connected with the mounting rod 605 through a gear set, the rotating mounting rod 605 can realize the storage of the equipment, the feeding process is prevented from being influenced, and the bracket 602 can be driven to move along the sliding rail 14 under the pushing of the hydraulic push rod 601, the detection seat 606 can be attached to the surface of the pipeline closely, the detection air bag 607 with the circular ring shape on the surface can be attached to the outer wall of the pipeline closely, the sensor modules distributed on the surface of the detection air bag 607 can detect the wall thickness of the pipeline through the contact with the pipe orifice to detect whether the wall thickness of the pipeline reaches the standard, and when the detection seats 606 on the two sides are close to and extrude the pipeline simultaneously, the detection frame 609 can be pushed to the inside of the pipeline under the drive of the drive telescopic rod 608, and the adjustment air bag 610 is continuously inflated at the same time, so that the adjustment air bag 610 is expanded to push the extrusion elastic linear rod 611, and the detection contact 612 is pushed to the inner wall of the pipeline through the elastic linear rod 611, thereby the pressure bearing capacity in the pipeline can be measured, after the pressure of the inner wall is measured, the pressure measuring plate 13 can be moved downwards under the drive of the hydraulic lifting rod 7, and the external pressure condition of the pipeline can be detected by matching with the local pressure bearing block 9, promote the comprehensiveness that detects, and meanwhile through the cotton 1204 that dehumidifies on dehumidification frame 1203 surface can contact with the inner wall of pipeline, can also clean the moist steam of inner wall when cleaning the dust, and adsorb the moisture of inside through the built-in moisture absorption haydite 1205 of dehumidification frame 1203 surface, promote its inside aridity, this dehumidification frame 1203 can last to support at the pipeline inner wall under the elastic connection pole 1202 can act on, make things convenient for its use, will detect data at last and send the testing result to staff's smart machine through main control board 10 and wireless transceiver module 11, make things convenient for staff's record.

Claims

1. The utility model provides a special equipment inspection detection device convenient to use, its characterized in that, including measuring seat (1) and measuring component (6), measure seat (1) top and install detection case (2), auxiliary assembly (3) are all installed to detection case (2) both sides, light filling lamp (4) are installed to detection case (2) surface both sides, just measure seat (1) mid-mounting and bear seat (5), auxiliary assembly (3) auxiliary frame (301), bracket (302), gas pocket (303), transmission ball (304), 3D scanning camera (305), reset spring (306), grip slipper (307), contact wheel (308) and pressure type contact piece (309), auxiliary frame (301) bottom is installed bracket (302), just gas pocket (303) have been seted up on bracket (302) surface, transmission ball (304) install in bracket (302), just bracket (302) both sides are all installed 3D scanning camera (305), auxiliary frame (301) top is provided with reset spring (306), just reset spring (306) other end is connected with grip slipper (307), grip slipper (307) both sides are all installed contact wheel (308), just contact wheel (308) surface is provided with pressure type contact piece (309), install in measure seat (1) both sides, just measure subassembly (6) bottom and be provided with slide rail (14).

2. A special equipment inspection and detection device convenient to use as claimed in claim 1, wherein a limiting component (8) is installed on the inner wall of the bearing seat (5), and the limiting component (8) comprises an arc frame (801), a pillow pad (802), buffering bumps (803), a pneumatic slider (804), a limiting frame (805), a rotating shaft (806) and a limiting block (807), the pillow pad (802) is embedded in the inner wall of the arc frame (801), the buffering bumps (803) are uniformly distributed on the surface of the pillow pad (802), the pneumatic slider (804) is installed inside the arc frame (801), the limiting frame (805) is connected to the output end of the pneumatic slider (804), the rotating shaft (806) is connected to the other end of the limiting frame (805), and the limiting block (807) is connected to the other end of the rotating shaft (806).

3. The special equipment inspection and detection device convenient to use according to claim 2, characterized in that the limiting frame (805) is in sliding connection with the arc frame (801) through the pneumatic sliding block (804), the surface of the limiting frame (805) is in an arc structure, and the limiting frame (805) is symmetrically distributed around the center line of the arc frame (801).

4. A special equipment inspection and detection device convenient to use, according to claim 1, characterized in that said holding seat (307) is elastically connected with said auxiliary frame (301) through said return spring (306), and said holding seat (307) is slidably connected with said auxiliary frame (301), and said holding seat (307) and said bracket (302) are both arc-shaped.

5. The special equipment inspection and detection device convenient to use according to claim 1, wherein the measuring assembly (6) comprises a hydraulic push rod (601), a bracket (602), a transfer shaft (603), an adjusting motor (604), a mounting rod (605), a detection seat (606), a detection air bag (607), a driving telescopic rod (608), a detection frame (609), an adjusting air bag (610), an elastic linear rod (611) and a detection contact (612), the output end of the hydraulic push rod (601) is connected with the bracket (602), the top of the bracket (602) is connected with the transfer shaft (603), the middle of the transfer shaft (603) is connected with the adjusting motor (604), the top of the transfer shaft (603) is connected with the mounting rod (605), one side of the mounting rod (605) is connected with the detection seat (606), and the surface of the detection seat (606) is provided with the detection air bag (607), the middle of the detection seat (606) is provided with the driving telescopic rod (608), the output end of the driving telescopic rod (608) is connected with the detection frame (609), the middle of the detection frame (609) is provided with the adjusting air bag (610), the outer part of the adjusting air bag (610) is connected with the elastic linear rod (611), and the other end of the elastic linear rod (611) is connected with the detection contact (612).

6. A special equipment inspection and detection device convenient to use according to claim 5, characterized in that the detection seat (606) is rotatably connected with the transfer shaft (603) through the adjusting motor (604), the detection seat (606) and the detection air bag (607) are embedded, and the detection air bag (607) is in a circular ring structure.

7. A serviceable special equipment inspection and detection device according to claim 5, wherein the resilient linear bar (611) is in driving connection with the inspection frame (609) via the adjustment bladder (610), and the resilient linear bar (611) is circumferentially distributed about the surface of the inspection frame (609).

8. A special equipment inspection and detection device convenient to use, according to claim 1, characterized in that a hydraulic lifting rod (7) is installed at the top of the detection box (2), the output end of the hydraulic lifting rod (7) is connected with a pressure measurement plate (13), a local pressure receiving block (9) is installed on the surface of the pressure measurement plate (13), a main control board (10) is installed inside the measurement seat (1), and a wireless transceiver module (11) is installed on the surface of the main control board (10).

9. A special equipment inspection and detection device convenient to use as claimed in claim 5, wherein a dehumidifying component (12) is connected to one side of the detection frame (609), and the dehumidifying component (12) comprises a straight rod (1201), an elastic connecting rod (1202), a dehumidifying frame (1203), dehumidifying cotton (1204) and moisture-absorbing ceramsite (1205), the other end of the straight rod (1201) is connected with the elastic connecting rod (1202), the outer end of the elastic connecting rod (1202) is connected with the dehumidifying frame (1203), the dehumidifying cotton (1204) is wrapped on the surface of the dehumidifying frame (1203), and the moisture-absorbing ceramsite (1205) is arranged inside the dehumidifying frame (1203).

10. The special equipment inspection and detection device convenient to use as claimed in claim 9, wherein the dehumidifying rack (1203) is elastically connected with the straight rod (1201) through the elastic connecting rod (1202), four sets of dehumidifying racks (1203) are provided, and the surface of the dehumidifying rack (1203) is in a hollow structure.