CN109358356B - Movable monitoring device for rotating machinery in radiation environment - Google Patents

Abstract

The invention relates to a movable monitoring device for rotating machinery in a radiation environment, which comprises a main body and a clamping plate, wherein a protective shell is installed at the bottom end of the main body, a vertical structure is formed between the main body and the protective shell, fixing plates are connected to the left side and the right side of the protective shell, and the protective shell is fixedly connected with the fixing plates. This rotating machinery under radiation environment is with monitoring devices who has anti-radiation movable formula, through the motion of anti-radiation cover between connecting rod and model groove, thereby can be divided into two with the anti-radiation cover through connecting rod and connecting bolt, consequently make things convenient for the main part to carry out rotary motion, and can reduce the injury of radiation to the main part through fixed plate and protecting casing, through the cardboard block on the model groove, thereby can make the metal mesh that the anti-radiation covered prevent the radiation, and can provide the monitoring space for monitoring facilities, thereby can resist the harm of radiation, can monitor radiation and resist the radiation simultaneously, thereby can not influence rotating machinery's normal work.

Description

Movable monitoring device for rotating machinery in radiation environment

Technical Field

The invention relates to the technical field of radiation-resistant monitoring, in particular to a movable monitoring device for a rotating machine in a radiation environment.

Background

The working range of radiation-resistant monitoring is wide, every modern people live in places where electromagnetic radiation is not input, computers, mobile phones, machines, televisions, refrigerators, microwave ovens and other household appliances are like radiation emitted by people all the time, the electromagnetic radiation and electromagnetic radiation pollution are two concepts, any charged body has electromagnetic radiation, when the electromagnetic radiation intensity exceeds the national standard, negative effects can be generated, the service life of a rotary machine can be influenced, the use effect of a rotary machine device is reduced, and therefore monitoring and improvement on the rotary machine in a radiation environment are needed.

In prior art, the rotating machinery under the radiation environment is with having portable monitoring devices of antiradiation, the inside radiation damage that takes place easily of its rotating machinery, and do not have specific safeguard, thereby cause the rotating machinery life under the monitoring to shorten, and antiradiation equipment dismantles also more difficultly, thereby greatly reduced antiradiation monitoring effect, and when monitoring inside radiation intensity, do not have certain detection report, thereby cause the rotating machinery antiradiation effect not strong.

Disclosure of Invention

The invention aims to provide a movable monitoring device for a rotary machine in a radiation environment, and aims to solve the problems that in the prior art, the rotary machine in the radiation environment is provided with the movable monitoring device for radiation resistance, the internal part of the rotary machine is easy to be damaged by radiation, no specific protection facility is provided, the service life of the rotary machine under monitoring is shortened, the radiation resistance equipment is difficult to disassemble, the radiation resistance monitoring effect is greatly reduced, and the internal radiation intensity is not provided with a certain detection report when monitoring is carried out, so that the radiation resistance effect of the rotary machine is not strong.

In order to achieve the purpose, the invention provides the following technical scheme: a movable monitoring device for rotary machinery in a radiation environment comprises a main body and a clamping plate, wherein a protective shell is installed at the bottom end of the main body, a vertical structure is arranged between the main body and the protective shell, fixed plates are connected to the left side and the right side of the protective shell, the protective shell is fixedly connected with the fixed plates, metal nets are connected to the left side and the right side of the fixed plates, the fixed plates are parallel to the metal nets, anti-radiation covers are fixed to the left end and the right end of each metal net and are welded to the metal nets, a connecting rod is connected to the bottom end of each anti-radiation cover, model grooves are fixed to the left side and the right side of the connecting rod, the connecting rod is tightly attached to the model grooves, the clamping plates are arranged on the left side and the right side of each anti-radiation cover, a cross rod plate is fixed to the left end of each model groove, the model grooves are fixedly connected to the cross rod, and a standby plate is arranged at the top end of the bolt column and is tightly attached to the cross rod plate.

Preferably, the center line between the main body and the anti-radiation cover is crossed, the connecting rod forms a clamping structure through the anti-radiation cover and the model groove, and the shape of the clamping plate is matched with that of the model groove.

Preferably, the bolt column is tightly attached to the standby plate, and the bolt column is in a detachable structure through the standby plate and the cross bar plate.

Preferably, the inductor is fixed to the left end of the top end of the standby plate, the top of the inductor is connected with a sliding opening, the cross rod plate is fixedly connected with the sliding opening, a sliding rod is arranged on the left side of the top end of the sliding opening, the sliding opening is tightly attached to the sliding rod, a top plate is fixed to the right side of the top end of the sliding opening, the sliding opening is in welded connection with the top plate, the bottom of the sliding rod is connected with a detection instrument, the central axis of the top plate is intersected with the central axis of the sliding rod, a connecting bolt is installed on the left side of the middle of the bottom of the top plate, the radiation-resistant cover is tightly attached to the connecting bolt, a support is fixed to the left side of the top end of the top plate, the top plate is fixedly connected with the support, a rotary column is installed on the top end of the support, a radiation-resistant plate.

Preferably, a vertical structure is formed between the slide rod and the detection instrument, and the top plate is in a sliding structure through the space between the slide rod and the detection instrument.

Preferably, the support is tightly attached to the rotary column, and the radiation-resistant cover is in a clamping structure through the space between the support and the rotary column.

Preferably, the outside left end of roof is connected with the baffle, the middle part of baffle is fixed with the fixed column, and is fixed connection between baffle and the fixed column, the rotary rod is installed to the bottom of fixed column, and is welded connection between fixed column and the rotary rod, the lower extreme of rotary rod is provided with the lifter, the bottom of lifter is connected with the hydraulic pump, and is the vertical structure between lifter and the hydraulic pump, the inboard upper end of lifter is fixed with the link, empty board is installed to the bottom of link, the internal connection of roof has the conveyer belt, and the inside left and right sides of conveyer belt is connected with the runner, the upper and lower both ends of conveyer belt all are fixed with radioresistance clothes, and are fixed connection between radioresistance clothes and the conveyer belt, the lifter plate is installed on the left and right sides top of link.

Preferably, the central line between the baffle and the rotating rod is crossed, and the baffle is formed into a rotating structure through the fixed column and the rotating rod.

Preferably, the rotating rod is movably connected with the lifting rod, and the lifting rod forms a lifting structure through the space between the lifting plate and the empty plate.

Preferably, the conveyor belt is tightly attached to the rotating wheel, and the radiation-resistant clothes form a transmission structure through the conveyor belt and the rotating wheel.

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

1. the connecting rod of the invention forms a clamping structure between the anti-radiation cover and the model groove, the shape of the clamping plate is matched with that of the model groove, the bolt column forms a disassembly structure between the standby plate and the cross rod plate, the anti-radiation cover moves between the connecting rod and the model groove, so that the anti-radiation cover can be divided into two parts by the connecting rod and the connecting bolt, the main body can conveniently rotate, the damage of radiation to the main body can be reduced by the fixing plate and the protecting shell, the metal net on the anti-radiation cover can prevent radiation by clamping the clamping plate on the model groove, a monitoring space can be provided for monitoring equipment, the harm of radiation can be resisted, the radiation and the radiation can be monitored, the normal work of a rotating machine can not be influenced, the standby plate on the cross rod plate can be disassembled by screwing the bolt column, and the staff of being convenient for moreover is to the change of antiradiation cover and metal mesh to can improve the antiradiation effect, can protect antiradiation monitoring facilities moreover, can prolong rotating machinery's life simultaneously, thereby can protect the main part in antiradiation cover and horizontal bar board.

2. The top plate of the invention is of a sliding structure between the sliding rod and the detecting instrument, the radiation-resistant cover is of a buckle structure between the bracket and the rotating column, the detecting instrument slides between the top plate and the sliding rod, so that the radiation monitoring of the main body machinery space is convenient, the radiation intensity can be monitored in multiple directions by left-right sliding, so that the monitoring instrument can be added through the sliding port according to the radiation intensity, the radiation monitoring can be carried out through the inductor, meanwhile, the radiation monitoring can be carried out on the rotating machinery fixedly and movably through the inductor and the detecting instrument, the rotating machinery can be protected by radiation resistance and monitoring, the buckle is rotated between the bracket and the rotating column through the radiation-resistant plate, so that the radiation-resistant cover can be protected, and the radiation can be prevented from entering the radiation-resistant cover, so that the main body is protected from radiation damage, and the rotating machine can be arranged in a certain space for radiation monitoring, so that the overhigh radiation intensity can be prevented.

3. The baffle plate is of a rotating structure formed between the fixed column and the rotating rod, and the baffle plate and the fixed column rotate on the rotating rod, so that the baffle plate and the fixed column can be blocked between the top plates, and the baffle plate and the fixed column can be matched with the radiation-resistant plate to perform radiation-resistant protection, so that monitoring equipment and rotating machinery can be protected, the service life of the rotating machinery can be prolonged, and the work of the monitoring equipment cannot be influenced.

4. The lifting rod of the invention forms a lifting structure between the lifting plate and the hollow plate, and the lifting rod is pushed by starting the hydraulic pump, so that the lifting rod can drive the lifting plate to move up and down, and the connecting frame and the hollow plate can move up and down, thereby providing a closed working space for the rotating machinery, and the damage of radiation to the main body can be blocked up and down, thereby providing a moving space for the monitoring equipment, accurately monitoring the radiation intensity, increasing the radiation-resistant facility of the main body, and thus blocking the radiation damage up and down through the connecting frame and the hollow plate.

5. The radiation-resistant suit is of a transmission structure formed between the conveyor belt and the rotating wheels, the conveyor belt and the radiation-resistant suit can be driven through the rotating wheels, the top plate can be protected, direct damage of radiation to the top plate can be avoided, the radiation-resistant suit can be transmitted left and right, one part can be prevented from being damaged by radiation in a concentrated mode, the detection instrument on the top plate can be protected through left and right transmission, and the service life of the detection instrument can be prolonged.

Drawings

FIG. 1 is a schematic structural diagram of a mobile monitoring device for a rotary machine in a radiation environment according to the present invention;

FIG. 2 is a schematic diagram of an internal top view of a mobile monitoring device for a rotating machine in a radiation environment according to the present invention;

FIG. 3 is a schematic diagram of a right-side view of a movable monitoring device for a rotary machine in a radiation environment according to the present invention;

FIG. 4 is a schematic left side view of a mobile monitoring device for a rotary machine in a radiation environment according to the present invention;

fig. 5 is an enlarged structural diagram of a top plate of the movable monitoring device for a rotary machine in a radiation environment according to the present invention.

In the figure: 1. a main body; 2. protecting the shell; 3. a fixing plate; 4. a connecting rod; 5. a radiation-resistant shield; 6. a metal mesh; 7. clamping a plate; 8. a mould groove; 9. a bolt column; 10. preparing a plate; 11. a cross bar plate; 12. an inductor; 13. a sliding port; 14. a top plate; 15. a slide bar; 16. detecting an instrument; 17. a connecting bolt; 18. a support; 19. a spin column; 20. a radiation-resistant plate; 21. a baffle plate; 22. fixing a column; 23. rotating the rod; 24. a lifting rod; 25. a hydraulic pump; 26. a lifting plate; 27. a connecting frame; 28. a blank plate; 29. anti-radiation clothes; 30. a conveyor belt; 31. a rotating wheel.

Detailed Description

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

Referring to fig. 1-5, the present invention provides a technical solution: a movable monitoring device for a rotary machine in a radiation environment comprises a main body 1, a protective shell 2, a fixing plate 3, a connecting rod 4, a radiation-resistant cover 5, a metal net 6, a clamping plate 7, a mold groove 8, a bolt column 9, a standby plate 10, a cross rod plate 11, an inductor 12, a sliding port 13, a top plate 14, a sliding rod 15, a detection instrument 16, a connecting bolt 17, a support 18, a rotating column 19, a radiation-resistant plate 20, a baffle 21, a fixing column 22, a rotating rod 23, a lifting rod 24, a hydraulic pump 25, a lifting plate 26, a connecting frame 27, a blank plate 28, a radiation-resistant garment 29, a conveyor belt 30 and a rotating wheel 31, wherein the protective shell 2 is installed at the bottom end of the main body 1, the main body 1 and the protective shell 2 are in a vertical structure, the fixing plate 3 is connected to the left side and the right side of the protective shell 2, the fixing plate 3 is fixedly connected to the left side and the right side of the fixing plate 3, the left end and the right end of the metal net 6 are fixed with radiation-resistant covers 5, the radiation-resistant covers 5 are welded with the metal net 6, the bottom end of each radiation-resistant cover 5 is connected with a connecting rod 4, the left side and the right side of each connecting rod 4 are fixed with model grooves 8, the connecting rods 4 are tightly attached to the model grooves 8, clamping plates 7 are arranged on the left side and the right side of each radiation-resistant cover 5, the central lines of the main body 1 and the radiation-resistant covers 5 are intersected, the connecting rods 4 form a clamping structure through the radiation-resistant covers 5 and the model grooves 8, the shapes of the clamping plates 7 are matched with those of the model grooves 8, the main body 1 is conveniently monitored by radiation in a mechanical space through sliding of a detection instrument 16 between a top plate 14 and a sliding rod 15, the radiation intensity can be monitored in multiple directions through left-right sliding, monitoring instruments can be added through sliding ports 13 according to the radiation intensity, and, meanwhile, the sensor 12 and the detecting instrument 16 are used for fixing and moving radiation monitoring of the rotating machine and protecting the rotating machine against radiation, the cross rod plate 11 is fixed at the left end of the model groove 8, the model groove 8 is fixedly connected with the cross rod plate 11, the bolt column 9 is connected with the bottom of the right side of the cross rod plate 11, the standby plate 10 is installed at the top end of the bolt column 9, the standby plate 10 is tightly attached to the cross rod plate 11, the bolt column 9 is tightly attached to the standby plate 10, the bolt column 9 is in a detachable structure through the standby plate 10 and the cross rod plate 11, the radiation-resistant plate 20 is rotatably clamped between the bracket 18 and the rotating column 19, the radiation-resistant cover 5 can be protected, radiation can be prevented from entering the radiation-resistant cover 5, the main body 1 is protected from radiation damage, and the rotating machine can be arranged in a certain space, radiation monitoring is carried out, so that overhigh radiation intensity can be prevented;

a sensor 12 is fixed at the left end of the top end of the standby plate 10, a sliding opening 13 is connected at the top of the sensor 12, the cross bar plate 11 is fixedly connected with the sliding opening 13, a sliding rod 15 is arranged at the left side of the top end of the sliding opening 13, the sliding opening 13 is tightly attached to the sliding rod 15, a top plate 14 is fixed at the right side of the top end of the sliding opening 13, the sliding opening 13 is in welded connection with the top plate 14, a vertical structure is formed between the sliding rod 15 and a detection instrument 16, the top plate 14 is in a sliding structure through the sliding rod 15 and the detection instrument 16, the radiation monitoring of the mechanical space of the main body 1 is facilitated through the sliding of the detection instrument 16 between the top plate 14 and the sliding rod 15, the radiation intensity can be monitored in multiple directions through the left-right sliding, the monitoring instrument can be added through the sliding opening 13 according to the radiation intensity, and the, meanwhile, the radiation protection device can perform fixed moving radiation monitoring on the rotating machine and can perform radiation resistance and monitor and protect the rotating machine through the inductor 12 and the detection instrument 16, the bottom of the sliding rod 15 is connected with the detection instrument 16, the central axes of the top plate 14 and the sliding rod 15 are intersected, the left side of the middle of the bottom of the top plate 14 is provided with the connecting bolt 17, the radiation protection cover 5 is tightly attached to the connecting bolt 17, the left side of the top end of the top plate 14 is fixedly connected with the support 18, the top end of the support 18 is provided with the rotating column 19, the support 18 is tightly attached to the rotating column 19, the radiation protection cover 5 is in a buckling structure through the support 18 and the rotating column 19, the radiation protection plate 20 is used for rotationally buckling between the support 18 and the rotating column 19, so that the radiation protection cover 5 can be protected, and radiation protection can be performed on the radiation protection cover 5, the main body 1 is protected from radiation damage, the rotating machine can be arranged in a certain space for radiation monitoring, and therefore the radiation intensity is prevented from being too high, the radiation-resistant plate 20 is arranged at the top of the rotating column 19, and the rotating column 19 is connected with the radiation-resistant plate 20 in a welding mode;

the baffle 21 is connected to the left end of the outside of the top plate 14, the fixed column 22 is fixed in the middle of the baffle 21, the baffle 21 is fixedly connected with the fixed column 22, the rotating rod 23 is installed at the bottom end of the fixed column 22, the fixed column 22 is welded with the rotating rod 23, the center line between the baffle 21 and the rotating rod 23 is crossed, the baffle 21 forms a rotating structure through the fixed column 22 and the rotating rod 23, the baffle 21 and the fixed column 22 rotate on the rotating rod 23 to move, the baffle 21 and the fixed column 22 can be blocked between the top plate 14, and the radiation-resistant plate 20 can be matched for radiation-resistant protection, so that the monitoring device and the rotating machine can be protected, the service life of the rotating machine can be prolonged, the work of the monitoring device cannot be influenced, the lifting rod 24 is arranged at the lower end of the rotating rod 23, and, and a vertical structure is arranged between the lifting rod 24 and the hydraulic pump 25, a connecting frame 27 is fixed at the upper end of the inner side of the lifting rod 24, the rotating rod 23 is movably connected with the lifting rod 24, the lifting rod 24 is constructed into a lifting structure through the lifting plate 26 and the hollow plate 28, the lifting rod 24 is pushed by starting the hydraulic pump 25, so that the lifting rod 24 can drive the lifting plate 26 to move up and down, and the connecting frame 27 and the hollow plate 28 can be used for moving up and down, so that a closed working space can be provided for the rotating machinery, and the damage of radiation to the main body 1 can be blocked up and down, so that a moving space can be provided for the monitoring equipment, and the radiation intensity can be accurately monitored, so that the radiation-resistant facility of the main body 1 can be increased, so that the radiation damage can be blocked up and down through the connecting frame 27 and the hollow plate 28, the hollow plate 28 is installed at, the internal connection of roof 14 has conveyer belt 30, and the inside left and right sides of conveyer belt 30 is connected with runner 31, the upper and lower both ends of conveyer belt 30 all are fixed with antiradiation suit 29, and be fixed connection between antiradiation suit 29 and the conveyer belt 30, closely laminate between conveyer belt 30 and the runner 31, and antiradiation suit 29 constitutes for transmission structure through between conveyer belt 30 and the runner 31, thereby can drive conveyer belt 30 and antiradiation suit 29 through runner 31, and can protect roof 14 so as to avoid the direct injury of radiation to roof 14, and through controlling transmission antiradiation suit 29, thereby can avoid the concentrated injury department of radiation, and can protect detecting instrument 16 on the roof 14 through controlling the transmission, thereby can prolong detecting instrument 16's life, lifter plate 26 is installed on the left and right sides top of link 27.

The working principle of the embodiment is as follows: the monitoring device with the radiation-resistant movable type for the rotary machine under the radiation environment can monitor the radiation intensity at any time by firstly radiating the detection instrument 16 through the LZT-1150, and can sense the radiation range by using the LHI778KP506BD203SD203B sensor 12, thereby being convenient for carrying out monitoring and prevention, and being convenient for developing the mechanical radiation-resistant work, thereby driving the conveyor belt 30 and the radiation-resistant clothes 29 through the rotating wheel 31, and protecting the top plate 14, thereby being capable of avoiding the direct damage of the radiation to the top plate 14, and by driving the radiation-resistant clothes 29 left and right, thereby being capable of avoiding the concentrated damage of the radiation, and by driving the detection instrument 16 on the top plate 14 left and right, thereby being capable of prolonging the service life of the detection instrument 16, by the movement of the radiation-resistant cover 5 between the connecting rod 4 and the model groove 8, thereby dividing the radiation-resistant cover 5 into two parts through the connecting rod 4 and the connecting bolt 17, therefore, the main body 1 can be conveniently rotated, the damage of radiation to the main body 1 can be reduced through the fixing plate 3 and the protective shell 2, the clamping plate 7 is clamped on the mold groove 8, the metal mesh 6 on the radiation-resistant cover 5 can be prevented from radiation, a monitoring space can be provided for monitoring equipment, the damage of radiation can be resisted, meanwhile, the radiation and the radiation can be monitored, the normal work of the rotating machinery can not be influenced, the baffle 21 and the fixed column 22 can be rotated on the rotating rod 23 to move, the baffle 21 and the fixed column 22 can be blocked between the top plates 14, the radiation-resistant plate 20 can be matched for radiation-resistant protection, the monitoring equipment and the rotating machinery can be protected, the service life of the rotating machinery can be prolonged, the work of the monitoring equipment can not be influenced, and the clamping buckle is rotated between the support 18 and the rotating column 19 through the radiation-resistant plate 20, thereby protecting the radiation-resistant cover 5 and resisting radiation from entering the radiation-resistant cover 5, thereby protecting the main body 1 from radiation damage, and the rotary machine can be arranged in a certain space for radiation monitoring, thereby preventing too high radiation intensity, the lifting rod 24 is pushed by starting the hydraulic pump 25, thereby enabling the lifting rod 24 to drive the lifting plate 26 to move up and down, and the connecting frame 27 and the hollow plate 28 can be used for moving up and down, thereby providing a closed working space for the rotary machine, and the damage of radiation to the main body 1 can be blocked up and down, thereby providing a moving space for monitoring equipment, and the radiation intensity can be accurately monitored, thereby increasing the radiation-resistant facility of the main body 1, thereby blocking radiation damage up and down through the connecting frame 27 and the hollow plate 28, the standby plate 10 on the cross bar plate 11 can be detached by screwing the bolt column 9, but also facilitates the replacement of the radiation-resistant cover 5 and the metal mesh 6 for the workers, thereby improving the radiation-resistant effect, but also can protect the anti-radiation monitoring equipment, and can prolong the service life of the rotating machinery, so that the main body 1 can be protected in the radiation shield 5 and the cross bar plate 11, by sliding the detecting instrument 16 between the top plate 14 and the slide bar 15, thereby facilitating the radiation monitoring of the mechanical space of the main body 1, and the radiation intensity can be monitored in multiple directions by sliding left and right, so that it is possible to add a monitoring instrument through the sliding port 13 according to the radiation intensity, so that it is possible to perform radiation monitoring through the inductor 12, and at the same time, through the inductor 12 and the detecting instrument 16, thereby the fixed and movable radiation monitoring can be carried out on the rotating machine, the radiation resistance and the monitoring and protection can be carried out on the rotating machine, this is the working principle of the monitoring device with radiation-resistant movable type for the rotating machinery in the radiation environment.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a monitoring devices of movable for rotating machinery under radiation environment, includes main part (1) and cardboard (7), its characterized in that: the radiation-resistant shield is characterized in that a protective shell (2) is installed at the bottom end of the main body (1), the main body (1) and the protective shell (2) are of a vertical structure, fixing plates (3) are connected to the left side and the right side of the protective shell (2), the protective shell (2) is fixedly connected with the fixing plates (3), metal nets (6) are connected to the left side and the right side of the fixing plates (3), the fixing plates (3) are parallel to the metal nets (6), radiation-resistant covers (5) are fixed to the left end and the right end of each metal net (6), the radiation-resistant covers (5) are welded to the metal nets (6), connecting rods (4) are connected to the bottom ends of the radiation-resistant covers (5), mold grooves (8) are fixed to the left side and the right side of each connecting rod (4), the connecting rods (4) are tightly attached to the mold grooves (8), and clamping plates (7) are arranged on the left side and the, the left end of the die-type groove (8) is fixed with a cross rod plate (11), the die-type groove (8) is fixedly connected with the cross rod plate (11), the bottom of the right side of the cross rod plate (11) is connected with a bolt column (9), a standby plate (10) is installed at the top end of the bolt column (9), and the standby plate (10) is tightly attached to the cross rod plate (11).

2. The mobile monitoring device for rotary machines in a radiation environment of claim 1, wherein: the central line between the main body (1) and the anti-radiation cover (5) is crossed, the connecting rod (4) forms a clamping structure through the anti-radiation cover (5) and the mold groove (8), and the shape of the clamping plate (7) is matched with that of the mold groove (8).

3. The mobile monitoring device for rotary machines in a radiation environment of claim 1, wherein: the bolt columns (9) are tightly attached to the standby plate (10), and the bolt columns (9) form a detachable structure through the standby plate (10) and the cross rod plate (11).

4. The mobile monitoring device for rotary machines in a radiation environment of claim 1, wherein: an inductor (12) is fixed at the left end of the top end of the standby plate (10), a sliding opening (13) is connected to the top of the inductor (12), the cross rod plate (11) is fixedly connected with the sliding opening (13), a sliding rod (15) is arranged at the left end of the top end of the sliding opening (13), the sliding opening (13) is tightly attached to the sliding rod (15), a top plate (14) is fixed at the right side of the top end of the sliding opening (13), the sliding opening (13) is welded to the top plate (14), the bottom of the sliding rod (15) is connected with a detection instrument (16), the central axes of the top plate (14) and the sliding rod (15) are intersected, a connecting bolt (17) is installed at the left side of the middle of the bottom of the top plate (14), the radiation-resistant cover (5) is tightly attached to the connecting bolt (17), a support (18) is fixed at the left side of the top end of the top plate (, and be fixed connection between roof (14) and support (18), column spinner (19) is installed on the top of support (18), the top of column spinner (19) is provided with radioresistance board (20), and is welded connection between column spinner (19) and radioresistance board (20).

5. The movable monitoring device for rotary machines in a radiation environment according to claim 4, wherein: the sliding rod (15) and the detection instrument (16) are in a vertical structure, and the top plate (14) is in a sliding structure through the sliding rod (15) and the detection instrument (16).

6. The movable monitoring device for rotary machines in a radiation environment according to claim 4, wherein: the support (18) is tightly attached to the rotating column (19), and the radiation-resistant cover (5) is in a buckling structure through the space between the support (18) and the rotating column (19).

7. The movable monitoring device for rotary machines in a radiation environment according to claim 4, wherein: the radiation-resistant roof is characterized in that the baffle (21) is connected to the left end of the outer portion of the top plate (14), the fixing column (22) is fixed in the middle of the baffle (21), the baffle (21) is fixedly connected with the fixing column (22), the rotary rod (23) is installed at the bottom end of the fixing column (22), the fixing column (22) is in welded connection with the rotary rod (23), the lifting rod (24) is arranged at the lower end of the rotary rod (23), the hydraulic pump (25) is connected to the bottom of the lifting rod (24), the lifting rod (24) is in a vertical structure with the hydraulic pump (25), the connecting frame (27) is fixed to the upper end of the inner side of the lifting rod (24), the hollow plate (28) is installed at the bottom end of the connecting frame (27), the conveyor belt (30) is connected to the inner portion of the top plate (14), the rotating wheels (31) are connected to the left side and the right side of the inner portion, and the radiation-resistant clothes (29) and the conveyor belt (30) are fixedly connected, and the top ends of the left side and the right side of the connecting frame (27) are provided with lifting plates (26).

8. The mobile monitoring device for rotary machines in a radiation environment of claim 7, wherein: the central line between the baffle (21) and the rotating rod (23) is crossed, and the baffle (21) forms a rotating structure through the fixed column (22) and the rotating rod (23).

9. The mobile monitoring device for rotary machines in a radiation environment of claim 7, wherein: the rotating rod (23) is movably connected with the lifting rod (24), and the lifting rod (24) forms a lifting structure through the space between the lifting plate (26) and the hollow plate (28).

10. The mobile monitoring device for rotary machines in a radiation environment of claim 7, wherein: the conveyor belt (30) is tightly attached to the rotating wheel (31), and the radiation-resistant clothes (29) form a transmission structure through the conveyor belt (30) and the rotating wheel (31).

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