CN112520188A

CN112520188A - Ultrasonic detection equipment carrying box with good protection performance and use method thereof

Info

Publication number: CN112520188A
Application number: CN202011387374.5A
Authority: CN
Inventors: 高畅; 谢黎; 唐世宝; 潘勤; 王静
Original assignee: National Energy Changyuan Suizhou Power Generation Co ltd; Guodian Qingshan Thermal Power Co ltd
Current assignee: National Energy Changyuan Suizhou Power Generation Co ltd; Guodian Qingshan Thermal Power Co ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-19
Anticipated expiration: 2040-12-01
Also published as: CN112520188B

Abstract

The invention discloses an ultrasonic detection equipment carrying case with good protection performance and a using method thereof, and relates to the technical field of novel protection carrying cases. The self-propelled inner clamping box structure comprises a carrying box main body, wherein one end of the carrying box main body is connected with an overturning sealing cover through a hinge, a self-propelled inner clamping box structure is fixed on the inner side of the carrying box main body, and a control power storage module is fixed at the top end of the carrying box main body. According to the invention, through the design of the self-derivation built-in clamping box structure, the device is convenient to derive and store through double-layer self-derivation driving, the external stress blocking and breakage preventing protection is completed, the adaptive elastic positioning and clamping on the equipment are completed by matching with the adaptive stable clamping block, the performance of the device for clamping and assembling various types of equipment is greatly improved, and through the design of the following drying structure, the device is convenient to complete the following ventilation and drying protection on internal equipment, and the influence of moisture on the use precision of the equipment is avoided.

Description

Ultrasonic detection equipment carrying box with good protection performance and use method thereof

Technical Field

The invention relates to the technical field of novel protective carrying cases, in particular to an ultrasonic detection equipment carrying case with good protection performance and a using method thereof.

Background

Ultrasonic testing is abbreviated as UT, also called ultrasonic testing, utilize ultrasonic technology to carry out testing work, be one of five conventional nondestructive test methods, nondestructive test is under the prerequisite that does not damage work piece or raw and other materials operating condition, the surface of part and the inside quality that is examined carry out the measuring means of inspection, for the convenience of ultrasonic equipment carries out many places work under carrying, often need corresponding case that carries, however, current case that carries often is not convenient for carry through the automatic wall protection that derives the design to form external force atress of double-deck automation and to the adaptability clamping, and lack the structure of inside heating dehumidification, the device damages by weing easily.

Disclosure of Invention

The invention aims to provide an ultrasonic detection equipment carrying case with good protection performance and a using method thereof, so as to solve the existing problems: the existing carrying box is not convenient for forming the partition protection of external force stress and adaptive clamping through double-layer automatic derivation design.

In order to achieve the purpose, the invention provides the following technical scheme: the ultrasonic detection equipment carrying box with good protection performance comprises a carrying box main body, wherein one end of the carrying box main body is connected with a turnover sealing cover through a hinge, a self-derivation built-in clamping box structure is fixed on the inner side of the carrying box main body, a control power storage module is fixed at the top end of the carrying box main body, a following drying structure is further fixed at the top end of the carrying box main body, the self-derivation built-in clamping box structure comprises a limiting stop plate, an output motor, a linkage threaded rod, a matched guide polished rod, a following displacement sliding block, an inner box and an adaptive stabilizing clamping block, two limiting stop plates are welded on two sides in the carrying box main body, one end of each limiting stop plate on one side is fixed with the output motor through a screw, the output end of the output motor is fixedly connected with the linkage threaded rod, and the other end of the linkage threaded rod is rotatably connected with the limiting stop plates on, two of both sides it leads the polished rod to join in marriage still to weld between the spacing stop plate, wherein two of one side of output motor it leads the polished rod to join in marriage and all is located the top and the bottom of linkage threaded rod, the equal swing joint in the outside of linkage threaded rod and the outside of joining in marriage the polished rod has follows the displacement slider, follow one side and the interior incasement welded connection of displacement slider, the inside both sides of interior incasement have the stable clamp splice of adaptation through the fix with screw.

Preferably, the adaptive stabilizing clamping block comprises a central supporting plate, lateral stabilizing plates, a component force supporting movable rod, a bracket spring, a component force pushing guide rod, a contact force unloading movable rod, a derivation square block, an inner assembly tight pipe, a central stressed spring, a buffering push rod, a stressed clamping plate, a derivation piston, a lateral component force push rod, an auxiliary spring, a secondary component force carrying block and a reset supporting spring, wherein one end of the stressed clamping plate is welded with the buffering push rod, one end of the buffering push rod and the central stressed spring are both positioned on the inner side of the inner assembly tight pipe, the buffering push rod is in sliding connection with the inner assembly tight pipe, one end of the inner assembly tight pipe is welded with the derivation square block, two sides of the other end of the derivation square block are rotatably connected with the contact force unloading movable rod, the other end of the contact force unloading movable rod is rotatably connected with the component force derivation rod, the lateral stabilizing plates are welded on two sides of the central supporting plate, the one end and the secondary component of side direction stabilizer plate carry on piece fixed connection, the both sides of center backup pad one end are all rotated and are connected with the component and support the loop bar, the component supports the one end and the component of loop bar and deduces the pole rotation and be connected, it deduces through support spring connection between square piece and the center backup pad to deduct, the component pushes away the one end of guide arm and deduces piston fixed connection, the both sides and the laminating of side direction component push rod of deducing the piston, the inboard sliding connection of side direction component push rod and secondary component carry on the piece, the other end and the auxiliary spring laminating of side direction component push rod, the laminating of one side and the support spring that resets of deducing the piston.

Preferably, from deducing built-in tight box structure of clamp including air inlet case, wind-guiding pipe, first filter plate, second filter plate, first fan, heat accumulation overfall board, second fan, heat derivation board, battery and electric heat heating lamp, the one end and the wind-guiding pipe welded connection of air inlet case, the inboard of wind-guiding pipe is fixed with first filter plate, second filter plate and first fan from one end to the other end in proper order, the top of air inlet case is fixed with heat derivation board, the last fixed surface of heat derivation board has the battery, the bottom and a plurality of electric heat heating lamp fixed connection of battery, the inboard of air inlet case is fixed with heat accumulation overfall board and second fan, heat accumulation overfall board is located the top of second fan.

Preferably, the heat storage overflowing plate is made of copper, a plurality of air passing grooves are formed in the heat storage overflowing plate, and the width of each air passing groove is one centimeter.

Preferably, the inside of first filter plate is fixed with the filter screen, the inside of second filter plate all is fixed with the filter core, the material of the inside filter core of second filter plate is nanometer active carbon, the inside filter screen material of first filter plate is the stainless steel.

Preferably, limiting guide grooves are formed in two sides of the inner portion of the secondary component force carrying block, and the limiting guide grooves are in clearance fit with the lateral component force push rods.

Preferably, the inner side of the inner assembling tight tube is welded with the central stressed spring, and one end of the central stressed spring is attached to the buffering push rod.

Preferably, two limiting guide through holes and a linkage through hole are formed in the following displacement sliding block, the linkage through hole is in threaded connection with the linkage threaded rod, and the limiting guide through holes are in sliding connection with the light distribution and guide rod.

Preferably, the one end of secondary component carrying piece inboard has been seted up and has been joined in marriage and lead and unload the power through-hole, the one end welding of component power push rod has the catch bar, join in marriage and lead and unload power through-hole and catch bar and be clearance fit.

The use method of the ultrasonic detection equipment carrying box with good protection performance is suitable for the ultrasonic detection equipment carrying box with good protection performance:

s1: the output motor finishes output by controlling the electric power storage module, and the built-in box is quickly led out by matching the linkage threaded rod, the matched guide polished rod and the following displacement slide block to finish placement preparation;

s2: the equipment is placed on the inner side of the adaptive stable clamping block, so that the opposite-punching elastic clamping and positioning are completed;

s3: the self-derivation built-in clamping box structure is integrally reset to the inside of the carrying box main body by controlling the electric power storage module, and the placing is completed by closing and overturning the sealing cover;

s4: the heating and drying of the internal equipment are completed by utilizing the following drying structure.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the design of the self-derivation built-in clamping box structure, the device is convenient to derive and store through double-layer self-derivation driving, the external stress blocking and breakage preventing protection is completed, and the adaptive elastic positioning and clamping on the equipment are completed by matching with the adaptive stable clamping block, so that the performances of various different clamping and assembling of the device on the equipment are greatly improved;

2. according to the invention, through the design of the following drying structure, the device is convenient to complete the following ventilation drying protection of internal equipment, and the influence of moisture on the use precision of the equipment is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention patent, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic diagram of the overall operation of the present invention;

FIG. 3 is a partial schematic structural view of the self-deriving interior clamping box configuration of the present invention;

FIG. 4 is a schematic view of a portion of a compliant and stable clamp block according to the present invention;

FIG. 5 is a schematic view of a portion of a follow-up drying configuration of the present invention;

FIG. 6 is a schematic view of a portion of the heating forming structure of the present invention.

In the figure: 1. a mounting box main body; 2. turning over the seal cover; 3. self-deducing the built-in clamping box structure; 4. controlling the power storage module; 5. following the drying structure; 6. a limiting stop plate; 7. an output motor; 8. a linkage threaded rod; 9. a guide polish rod is matched; 10. a following displacement slider; 11. boxing; 12. adapting to the stable clamping block; 13. a central support plate; 14. a lateral stabilizer plate; 15. the component force supports the movable rod; 16. a bracket spring; 17. pushing the guide rod by force; 18. a contact force-removing movable rod; 19. deriving a square block; 20. internally assembling a tight pipe; 21. a central force-bearing spring; 22. a buffer push rod; 23. a stressed splint; 24. a piston is derived; 25. a lateral component force push rod; 26. an auxiliary spring; 27. a secondary component force carrying block; 28. a return support spring; 29. an air inlet box; 30. an air guide guiding pipe; 31. a first filter plate; 32. a second filter plate; 33. a first wind fan; 34. a heat accumulation overflowing plate; 35. a second wind fan; 36. a thermal output plate; 37. a storage battery; 38. an electric heating lamp.

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.

The first embodiment is as follows:

referring to fig. 1-6, the ultrasonic testing equipment carrying case with better protection performance comprises a carrying case main body 1, one end of the carrying case main body 1 is connected with a turnover sealing cover 2 through a hinge, a self-derivation built-in clamping case structure 3 is fixed on the inner side of the carrying case main body 1, a control power storage module 4 is fixed on the top end of the carrying case main body 1, a following drying structure 5 is further fixed on the top end of the carrying case main body 1, the self-derivation built-in clamping case structure 3 comprises a limiting stop plate 6, an output motor 7, a linkage threaded rod 8, a light distribution and guide rod 9, a following displacement slide block 10, an inner case 11 and an adaptive stable clamping block 12, two limiting stop plates 6 are welded on two sides inside the carrying case main body 1, wherein one end of the limiting stop plate 6 on one side is fixed with the output motor 7 through a screw, an output end of the output motor 7 is fixedly connected with the linkage threaded rod 8, and the other end of the linkage threaded rod 8, two light distribution and guide rods 9 are welded between the two limiting and stopping plates 6 on the two sides, wherein the two light distribution and guide rods 9 on one side of the output motor 7 are both positioned at the top end and the bottom end of the linkage threaded rod 8, the outer side of the linkage threaded rod 8 and the outer side of the light distribution and guide rods 9 are both movably connected with a following displacement slide block 10, one side of the following displacement slide block 10 is welded with the inner box 11, and adaptive stable clamping blocks 12 are fixed on the two sides of the inner box 11 through screws;

two limiting guide through holes and a linkage through hole are formed in the following displacement sliding block 10, the linkage through hole is in threaded connection with the linkage threaded rod 8, the limiting guide through hole is in sliding connection with the matching light guide rod 9, the linkage threaded rod 8 is convenient to drive through the output torque of the output motor 7, the torque is transmitted to the following displacement sliding block 10 through the linkage threaded rod 8, the limitation of the torque applied to the following displacement sliding block 10 is completed by utilizing the matching guide of the matching light guide rod 9 and the following displacement sliding block 10, the torque is limited to form derivation power, the internal loading box 11 is convenient to automatically derive and take in, meanwhile, a stress non-conduction space is formed by utilizing the interval between the internal loading box 11 and the carrying box main body 1, and the direct conduction of external impact is avoided;

the adaptive stabilizing clamping block 12 comprises a central supporting plate 13, a lateral stabilizing plate 14, a component force supporting movable rod 15, a bracket spring 16, a component force derivation rod 17, a contact force removing movable rod 18, a derivation square block 19, an internal assembling pipe 20, a central stressed spring 21, a buffer push rod 22, a stressed clamp plate 23, a derivation piston 24, a lateral component force push rod 25, an auxiliary spring 26, a secondary component force carrying block 27 and a reset supporting spring 28, wherein one end of the stressed clamp plate 23 is welded with the buffer push rod 22, one end of the buffer push rod 22 and the central stressed spring 21 are both positioned on the inner side of the internal assembling pipe 20, the buffer push rod 22 is connected with the internal assembling pipe 20 in a sliding manner, one end of the internal assembling pipe 20 is welded with the derivation square block 19, two sides of the other end of the derivation square block 19 are rotatably connected with the contact force removing movable rod 18, the other end of the contact force removing movable rod 18 is rotatably connected with the, lateral stabilizing plates 14 are welded on two sides of a central supporting plate 13, one end of each lateral stabilizing plate 14 is fixedly connected with a secondary component force carrying block 27, two sides of one end of the central supporting plate 13 are rotatably connected with component force supporting movable rods 15, one end of each component force supporting movable rod 15 is rotatably connected with a component force derivation rod 17, a derivation square block 19 is connected with the central supporting plate 13 through a support spring 16, one end of each component force derivation rod 17 is fixedly connected with a derivation piston 24, two sides of the derivation piston 24 are attached to lateral component force push rods 25, the lateral component force push rods 25 are slidably connected with the inner sides of the secondary component force carrying blocks 27, the other ends of the lateral component force push rods 25 are attached to auxiliary springs 26, and one side of the derivation piston 24 is attached to a reset supporting spring 28;

one end of the inner side of the secondary component force carrying block 27 is provided with a force distribution and guide and unloading through hole, one end of the component force derivation rod 17 is welded with a push rod, the force distribution and guide and unloading through hole is in clearance fit with the push rod, two sides of the inner part of the secondary component force carrying block 27 are both provided with limiting guide grooves, the limiting guide grooves are in clearance fit with the lateral component force push rod 25, transmission and secondary force distribution and unloading after derivation and unloading are convenient to complete, the inner side of the built-in tightening pipe 20 is welded with the central stress spring 21, one end of the central stress spring 21 is attached to the buffer push rod 22, and unloading force derivation and adaptive contraction can be conveniently completed through contact;

the equipment is placed in the inner loading box 11 and clamped by utilizing the adaptive stabilizing clamping block 12, when the equipment is affected by shaking along with the displacement of the loading box main body 1, the stress is guided to the central stress spring 21 by the contact of the stress clamping plate 23 through the sliding of the buffer push rod 22 in the inner assembly tight tube 20, the whole stress is buffered by the central stress spring 21, the rest stress is laterally pushed and displaced through the matching of the inner assembly tight tube 20 and the derivation square block 19, so that the contact force-unloading movable rod 18 is contracted and descended by the matching of the component force derivation rod 17 and the component force supporting movable rod 15, the stress is transmitted to the inner sides of the secondary component force loading blocks 27 at both sides, the stress is divided to both sides through the contact of the derivation piston 24 and the lateral component force push rod 25 in the transmission process, the force-unloading effect is improved, and the stress is transmitted to the auxiliary spring 26 through the sliding of the lateral component force push rod 25, the conduction center of the derivation piston 24 is stressed and is extruded to the position of the reset support spring 28 to complete buffering, and the limit elastic support positioning is formed;

the self-derivation built-in clamping box structure 3 comprises an air inlet box 29, an air guide pipe 30, a first filter plate 31, a second filter plate 32, a first wind fan 33, a heat accumulation overflowing plate 34, a second wind fan 35, a heat output plate 36, a storage battery 37 and electric heating lamps 38, wherein one end of the air inlet box 29 is welded with the air guide pipe 30, the first filter plate 31, the second filter plate 32 and the first wind fan 33 are sequentially fixed on the inner side of the air guide pipe 30 from one end to the other end, the top end of the air inlet box 29 is fixed with the heat output plate 36, the upper surface of the heat output plate 36 is fixed with the storage battery 37, the bottom end of the storage battery 37 is fixedly connected with the electric heating lamps 38, the inner side of the air inlet box 29 is fixed with the heat accumulation overflowing plate 34 and the second wind fan 35, the heat accumulation overflowing plate 34 is positioned at the top end of the second wind fan 35, the heat accumulation overflowing plate 34 is made of copper, a, the width of the air passing groove is one centimeter, a filter screen is fixed inside the first filter plate 31, filter cores are fixed inside the second filter plate 32, the filter cores inside the second filter plate 32 are made of nano activated carbon, and the filter screen inside the first filter plate 31 is made of stainless steel;

air outside is pumped into the air guide pipe 30, large visible particles are filtered by the first filter plate 31, small-hole adsorption characteristics of filter element materials in the second filter plate 32 are utilized, dust and micro particles in the air are filtered and removed and adsorbed, the air is guided into the air inlet box 29, electric power is supplied to the electric heating warming lamp 38 by electric power stored in the storage battery 37, the electric heating warming lamp is electrified to heat the air, the heat storage flow passing plate 34 is irradiated and heated while the air in the air inlet box 29 is heated, due to the fact that the heat storage flow passing plate 34 is made of good heat conduction performance, reheating of the flowing air is completed, the heated air is guided into the carrying box main body 1 and the inner box 11 by means of guiding of the second wind fan 35, and thermal drying protection of equipment is completed.

Example two:

the use method of the ultrasonic detection equipment carrying box with good protection performance is applicable to the first embodiment:

the first step is as follows: the output motor 7 finishes output by controlling the electric storage module 4, and the internal box 11 is quickly led out by matching the linkage threaded rod 8, the light distribution and guide rod 9 and the following displacement slide block 10 to finish placement preparation;

the second step is that: the equipment is placed on the inner side of the adaptive stable clamping block 12, so that the opposite-punching elastic clamping and positioning are completed;

the third step: the electric power storage module 4 is controlled to enable the self-derived built-in clamping box structure 3 to be integrally reset to the inside of the carrying box main body 1, and the turnover sealing cover 2 is closed to finish placement;

the fourth step: the heating and drying of the internal equipment are completed by the following and drying structure 5.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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.

Claims

1. Ultrasonic testing equipment that barrier propterty is better carries case, including carrying on case main part (1), its characterized in that: one end of the carrying box main body (1) is connected with a turnover sealing cover (2) through a hinge, the inner side of the carrying box main body (1) is fixed with a self-derivation built-in clamping box structure (3), the top end of the carrying box main body (1) is fixed with a control power storage module (4), the top end of the carrying box main body (1) is further fixed with a following drying structure (5), the self-derivation built-in clamping box structure (3) comprises a limiting stop plate (6), an output motor (7), a linkage threaded rod (8), a guide polish rod (9), a following displacement slider (10), a built-in box (11) and an adaptive stabilizing clamping block (12), two limiting stop plates (6) are welded on two sides inside the carrying box main body (1), one end of the limiting stop plate (6) on one side is fixed with the output motor (7) through a screw, and the output end of the output motor (7) is fixedly connected with the linkage threaded rod (8), the other end of linkage threaded rod (8) and spacing end position plate (6) of homonymy rotate to be connected, two of both sides spacing end still the welding have two between position plate (6) to join in marriage and lead polished rod (9), wherein two of one side of output motor (7) join in marriage and lead polished rod (9) top and bottom that all are located linkage threaded rod (8), the equal swing joint in the outside of linkage threaded rod (8) and the outside of joining in marriage and leading polished rod (9) has and follows displacement slider (10), follow one side and interior vanning (11) welded connection of displacement slider (10), the inside both sides of interior vanning (11) are fixed with the stable clamp splice (12) of adaptation through the screw.

2. The ultrasonic testing equipment carrying case with better protection performance according to claim 1, characterized in that: the adaptive stabilizing clamping block (12) comprises a central supporting plate (13), a lateral stabilizing plate (14), a component force supporting movable rod (15), a support spring (16), a component force derivation rod (17), a contact force unloading movable rod (18), a derivation square block (19), an internal assembling pipe (20), a central stressed spring (21), a buffering push rod (22), a stressed clamping plate (23), a derivation piston (24), a lateral component force push rod (25), an auxiliary spring (26), a secondary component force carrying block (27) and a reset supporting spring (28), wherein one end of the stressed clamping plate (23) is welded with the buffering push rod (22), one end of the buffering push rod (22) and the central stressed spring (21) are both positioned on the inner side of the internal assembling pipe (20), the buffering push rod (22) is slidably connected with the internal assembling pipe (20), one end of the internal assembling pipe (20) is welded with the derivation square block (19), derive the both sides of square piece (19) other end and contact and unload power movable rod (18) and rotate and be connected, the other end and the component of contact of unloading power movable rod (18) are deduced pole (17) and are rotated and be connected, side direction stabilizer plate (14) have all been welded to the both sides of center backup plate (13), the one end and the secondary component of side direction stabilizer plate (14) are carried on piece (27) fixed connection, the both sides of center backup plate (13) one end are all rotated and are connected with component support movable rod (15), the one end and the component of component support movable rod (15) are pushed the guide arm (17) and are rotated and be connected, derive and be connected through support spring (16) between square piece (19) and center backup plate (13), the one end and the derivation piston (24) fixed connection of component push guide arm (17), the both sides and the laminating of derivation piston (24) are pushed the pole (25) with the side direction component, the lateral component force push rod (25) is connected with the inner side of the secondary component force carrying block (27) in a sliding mode, the other end of the lateral component force push rod (25) is attached to the auxiliary spring (26), and one side of the derivation piston (24) is attached to the reset supporting spring (28).

3. The ultrasonic testing equipment carrying case with better protection performance according to claim 1, characterized in that: the self-derivation built-in clamping box structure (3) comprises an air inlet box (29), an air guide pipe (30), a first filter plate (31), a second filter plate (32), a first wind fan (33), a heat accumulation overflowing plate (34), a second wind fan (35), a heat output plate (36), a storage battery (37) and electric heating lamps (38), wherein one end of the air inlet box (29) is welded with the air guide pipe (30), the inner side of the air guide pipe (30) is sequentially fixed with the first filter plate (31), the second filter plate (32) and the first wind fan (33) from one end to the other end, the top end of the air inlet box (29) is fixed with the heat output plate (36), the storage battery (37) is fixed on the upper surface of the heat output plate (36), the bottom end of the storage battery (37) is fixedly connected with the plurality of electric heating lamps (38), the heat accumulation overflowing plate (34) and the second wind fan (35) are fixed on the inner side of the air inlet box (29), the heat accumulation overflowing plate (34) is positioned at the top end of the second wind fan (35).

4. The ultrasonic testing equipment carrying case with better protection performance according to claim 3, characterized in that: the heat storage overflowing plate (34) is made of copper, a plurality of air passing grooves are formed in the heat storage overflowing plate (34), and the width of each air passing groove is one centimeter.

5. The ultrasonic testing equipment carrying case with better protection performance according to claim 3, characterized in that: the inside of first filter plate (31) is fixed with the filter screen, the inside of second filter plate (32) all is fixed with the filter core, the material of the inside filter core of second filter plate (32) is nanometer active carbon, the inside filter screen material of first filter plate (31) is the stainless steel.

6. The ultrasonic testing equipment carrying case with better protection performance according to claim 2, characterized in that: limiting guide grooves are formed in two sides of the interior of the secondary component carrying block (27), and the limiting guide grooves are in clearance fit with the lateral component push rod (25).

7. The ultrasonic testing equipment carrying case with better protection performance according to claim 2, characterized in that: the inner side of the inner assembling tight tube (20) is welded with the central stressed spring (21), and one end of the central stressed spring (21) is attached to the buffering push rod (22).

8. The ultrasonic testing equipment carrying case with better protection performance according to claim 1, characterized in that: two limiting guide through holes and a linkage through hole are formed in the following displacement sliding block (10), the linkage through hole is in threaded connection with the linkage threaded rod (8), and the limiting guide through holes are in sliding connection with the matched guide polished rod (9).

9. The ultrasonic testing equipment carrying case with better protection performance according to claim 2, characterized in that: the one end of secondary component carries on piece (27) inboard has been seted up and has been joined in marriage and lead and unload the power through-hole, the one end welding of component push rod (17) has the catch bar, join in marriage and lead and unload power through-hole and catch bar and be clearance fit.

10. Use of a carrying case for ultrasonic testing equipment with a good protection performance, for use in any of the preceding claims, characterized by the following steps:

s1: the output motor (7) finishes output by controlling the electric storage module (4), and the inner container (11) is quickly led out by matching the linkage threaded rod (8), the matched guide polished rod (9) and the following displacement slider (10) to finish placement preparation;

s2: the equipment is placed on the inner side of the adaptive stable clamping block (12) to complete the opposite-punching elastic clamping and positioning;

s3: the electric power storage module (4) is controlled to enable the self-derived built-in clamping box structure (3) to be integrally reset to the inside of the carrying box main body (1), and the turnover sealing cover (2) is closed to finish placement;

s4: the heating and drying of the internal equipment are completed by utilizing the following drying structure (5).