CN113294772A - Crawling microwave oscillation oxide skin cleaning system - Google Patents

Crawling microwave oscillation oxide skin cleaning system Download PDF

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Publication number
CN113294772A
CN113294772A CN202110499554.0A CN202110499554A CN113294772A CN 113294772 A CN113294772 A CN 113294772A CN 202110499554 A CN202110499554 A CN 202110499554A CN 113294772 A CN113294772 A CN 113294772A
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China
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main body
crawling
integrated control
control platform
crawling main
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CN202110499554.0A
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CN113294772B (en
Inventor
蒋涛
赵勇
孙越
谢军军
孙旭
原永亮
宋立斌
赵婧婍
周洪洋
戴俊潇
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Datang Northeast Electric Power Test and Research Institute Co Ltd
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Datang Northeast Electric Power Test and Research Institute Co Ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22BMETHODS OF STEAM GENERATION; STEAM BOILERS
    • F22B37/00Component parts or details of steam boilers
    • F22B37/02Component parts or details of steam boilers applicable to more than one kind or type of steam boiler
    • F22B37/48Devices for removing water, salt, or sludge from boilers; Arrangements of cleaning apparatus in boilers; Combinations thereof with boilers
    • F22B37/54De-sludging or blow-down devices
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28GCLEANING OF INTERNAL OR EXTERNAL SURFACES OF HEAT-EXCHANGE OR HEAT-TRANSFER CONDUITS, e.g. WATER TUBES OR BOILERS
    • F28G15/00Details
    • F28G15/003Control arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28GCLEANING OF INTERNAL OR EXTERNAL SURFACES OF HEAT-EXCHANGE OR HEAT-TRANSFER CONDUITS, e.g. WATER TUBES OR BOILERS
    • F28G7/00Cleaning by vibration or pressure waves

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Cleaning In General (AREA)

Abstract

The invention relates to a crawling microwave oscillation oxide skin cleaning system which comprises an integrated control platform, a data evaluation processing platform, an electric wire coiling protection device, a crawling main body and a closed system 5G base station, wherein the integrated control platform is connected with the data evaluation processing platform through a network; the integrated control platform comprises a battery and peripheral storage place, a closed system 5G base station storage place, an electric wire coiling protection device storage place and a crawling main body storage place; the integrated control platform is connected with the crawling main body through the electric wire coiling protection device; a crawling main body power supply line of the integrated control platform is connected with the crawling main body through an electric wire coiling protection device; the crawling main body encircles the outer wall of the vertical pipeline through a double-crawling main body noose structure or a crawling main body drum noose structure and a drum fixing device, and is used for cleaning oxide skins on the inner wall of the pipeline in a microwave oscillation mode. The microwave vibration cleaning device can perform microwave vibration and stripping cleaning on the oxide skin on the inner wall of the heating surface pipe after the furnace is shut down, and solves a series of problems caused by the problems of residual oxide skin, adhesion and non-fixed period stripping.

Description

Crawling microwave oscillation oxide skin cleaning system
Technical Field
The invention belongs to the technical field of furnace tube oxide skin cleaning, and particularly relates to a crawling microwave oscillation oxide skin cleaning system.
Background
The ferrite and austenite tubes widely used in the boiler high-temperature section furnace tube can generate an oxide layer on the inner wall of the furnace tube under the action of steam when the tubes run at high temperature, can block further reaction between iron and water or steam, and can prevent corrosion of certain components in the medium in the tube to metals. However, under certain conditions, the oxide layers can be separated from the base material, and the peeling of a large amount of oxide layers is extremely harmful to the running safety of the unit.
At present, the problem that oxide skin falls off commonly exists in supercritical (super) critical parameter boilers in China, and a large amount of oxide skin falls off in supercritical (super) critical parameter boilers which are operated for a long period and a high load.
After the oxide skin on the heating surface in the tube is removed, the oxide skin will be accumulated on the lower elbow and the horizontal section of the furnace tube. When the one-time falling accumulation amount is large, the through-flow section of the pipe is completely or mostly blocked, the steam flow is blocked, and the pipe is exploded due to instantaneous overtemperature and overheating in a short time; when the oxide scale accumulation amount is small, a small part of the through-flow section of the pipe is plugged, so that the boiler pipe is subjected to long-term chronic overheating pipe explosion.
And the oxide skin solid generated in the boiler heating surface is brought out by steam and enters the steam turbine, and is accelerated by the regulating valve and the nozzle, so that the turbine blade is corroded, eroded and abraded, the molded lines of the valve, the blade and the nozzle are changed, the surface roughness and the gap of the valve, the blade and the nozzle are increased, the efficiency of the steam turbine is obviously reduced, and the maintenance cost of a unit is increased. If the oxide skin deposits between steam turbine main valve case and disk seat, cause the main valve bite when the unit shut down easily, unable normal shut down threatens the safe operation of unit. The scale cinder that gets into in the steam turbine is carried by steam and is flowed together, and at the start-up stage of unit, the various hydrophobic states that are in of steam turbine, therefore the scale cinder can get into hydrophobic, steam extraction system along with steam, after the dilatation of step-down, when the velocity of flow descends to the degree that can't carry the scale cinder, the scale cinder begins the deposit to block up tiny pipeline, drain valve, check valve etc. easily.
The oxide skin is peeled off and also can influence the soda quality of unit, and behind the machine side, the oxide skin granule itself diminishes, becomes garrulous, enters into condensate system from the low pressure jar, and the adhesion leads to secondary pollution at water wall pipe, height heater water side again, has the potential safety hazard to unit normal operating.
Disclosure of Invention
The invention aims to provide a crawling microwave oscillation oxide skin cleaning system, which is used for carrying out microwave oscillation and shedding cleaning on oxide skin on the inner wall of a heating surface pipe after the furnace is shut down and solving a series of problems caused by the problems of oxide skin residue, adhesion and non-fixed period stripping. Meanwhile, parameters can be set systematically, automatic operation is achieved, labor intensity is reduced, maintenance period is shortened, economic cost is reduced, and the method is simple, efficient and thorough in treatment. The system device has the advantages of stable structure, random combination, movement and repeated use, simple principle, wide applicability and convenient operation, can solve the risk problem caused by a series of oxide skins, and also provides a selection mode for other technical problems of pipeline cleaning.
The invention provides a crawling microwave oscillation oxide skin cleaning system which comprises an integrated control platform, a data evaluation processing platform, an electric wire coiling protection device, a crawling main body and a closed system 5G base station, wherein the integrated control platform is connected with the data evaluation processing platform through a network;
the integrated control platform comprises a battery and peripheral storage place, a closed system 5G base station storage place, an electric wire coiling protection device storage place and a crawling main body storage place, and the battery and peripheral storage place, the closed system 5G base station, the electric wire coiling protection device and the crawling main body storage place are respectively used for storing a battery peripheral of the crawling main body, the electric wire coiling protection device and the crawling main body;
the integrated control platform is connected with the crawling main body through the electric wire coiling protection device; a crawling main body power supply line of the integrated control platform is connected with the crawling main body through an electric wire coiling protection device;
the crawling main body encircles the outer wall of the vertical pipeline through a double-crawling main body noose structure or a crawling main body drum noose structure and a drum fixing device, and is used for cleaning the pipeline from top to bottom under the control of the integrated control platform, cruising from bottom to top, automatically crawling, processing for many times, and cleaning oxide skins on the inner wall of the pipeline in a microwave oscillation mode;
the closed system 5G base station is arranged at the bottom of the boiler and is used for positioning a crawling main body and transmitting signals;
the data evaluation processing platform is movably connected with the side wall of the integrated control platform operating platform, and the integrated control platform is provided with a data evaluation processing platform folding storage position for storing the data evaluation processing platform;
the main part of crawling is including the handheld peripheral hardware of the main part of crawling and the main part battery peripheral hardware of crawling, the main part installation of crawling is held the handheld peripheral hardware of main part of crawling and is crawled the main part battery peripheral hardware, and with data evaluation handles the platform cooperation for bottom return bend inner wall jam condition aassessment.
Furthermore, the system also comprises a mounting line positioning support used for fixing a power supply line of the crawling main body, and a bottom fixing disc and a ground foot fixing lock used for fixing the electric wire coiling protection device.
Further, the crawling main body is connected with the electric wire coiling protection device through a crawling main body protection chain.
Furthermore, the integrated control platform comprises an integrated control platform main switch, an integrated control platform push-pull protection cover plate, an integrated control platform signal receiver switch, an integrated control platform signal receiver, an integrated control platform manual control area, an integrated control platform starting switch, an integrated control platform emergency stop button, an integrated control platform manual control area indicator lamp, an integrated control platform automatic control input area, an integrated control platform key parameter display area, a remote video transmission image display screen, a space simulation schematic diagram display screen and an integrated control platform automatic control area indicator lamp;
the integrated control platform parameter input area is used for setting crawling main body control parameters, and the control parameters comprise the moving speed and the moving distance of the crawling main body, the outer wall cleaning rotating speed, the microwave dehydration temperature range, the microwave oscillation frequency, the illumination intensity and the handheld mode indication;
the remote video transmission image display screen is used for displaying real-time video images of the lower pipe wall and the front section space of the crawling main body;
the integrated control platform parameter display area is used for displaying the moving speed, the moving distance, the outer wall cleaning rotating speed, the microwave dehydration temperature range, the microwave oscillation frequency, the illumination intensity, the magnetic signal and the 5G signal intensity parameter of the crawling main body in real time;
the space simulation schematic diagram display screen is used for simulating the relative position of the crawling main body and the cleaning process according to the parameter setting and positioning signals.
Furthermore, the crawling main body comprises a crawling main body transmission electromagnetic hub, a microwave oscillation fitting transmitting device, a microwave high-temperature dewatering device, a pipe wall cleaning scraping brush, a pipe wall cleaning hairbrush, a magnetic signal transmitting receiver, a crawling main body lower end camera, a crawling main body lower end lighting device, a crawling main body lasso interface, a microwave oscillation side stabilizer, a crawling main body front end lighting device, a crawling main body front end camera, a distance sensing locking device, a microwave oscillation bottom stabilizer and a crawling main body signal receiving and positioning processor;
the crawling main body signal receiving and positioning processor is used for combining a closed system 5G base station, assisting in crawling main body positioning and signal transmission, receiving parameter instructions of the integrated control platform, controlling the crawling main body to work, and feeding back and transmitting signals to the integrated control platform and the data evaluation processing platform;
the creeping main body transmission electromagnetic hub is used for receiving parameter instructions of the integrated control platform, magnetically attracts the outer wall of the pipeline, adjusts the height guarantee of the hub, controls the attaching distance, and controls the stepping speed and the displacement distance of the hub, so that the length of a power supply line of the creeping main body and a protection lock chain of the creeping main body is adaptive to the creeping distance, and the stepping of the creeping main body is accurately controlled;
the pipe wall cleaning scraping brush and the pipe wall cleaning hairbrush of the crawling main body are used for receiving parameter instructions of the integrated control platform, adjusting the fit distance with the pipe wall and adjusting the rotating speed of the hairbrush and the scraping brush;
the crawling main body microwave high-temperature dehydration device is used for receiving parameter instructions of the integrated control platform, adjusting the fit distance with the pipe wall, controlling the heating temperature range section through sensing, meeting the dehydration requirement of the inner wall and preventing overheating;
the crawling main body microwave oscillation device is used for receiving parameter instructions of the integrated control platform, adjusting the attaching distance with the pipe wall, adjusting the microwave oscillation frequency, assisting with a microwave oscillation side stabilizer and a microwave oscillation bottom stabilizer, and enabling the inner wall non-core protective oxide skin to fall off in a microwave oscillation mode;
the crawling main body magnetic signal transmitting and receiving device is used for receiving parameter instructions of the integrated control platform, transmitting magnetic pulses to the interior of the pipeline, receiving feedback signals and transmitting the feedback signals to the integrated control platform and the data evaluation processing platform;
the crawling main body distance sensing locking device is used for transmitting a sensor feedback signal to the integrated control platform, and when the front end has no pipeline, the electric disc wire protection device and the crawling main body transmission electromagnetic hub are braked so as to prevent the crawling main body from falling off and separating from the pipeline due to improper set distance parameters;
the crawling main body lower end camera, the crawling main body front end camera, the crawling main body lower end lighting device and the crawling main body front end lighting device are used for receiving parameter instructions of the integrated control platform, executing closing or opening actions and transmitting images to the remote video transmission image display screen.
Furthermore, the electric coiling protection device comprises an electric coiling protection device emergency stop button, an electric coiling protection device starting switch, an electric coiling protection device signal receiving processor, an electric coiling protection device manual take-up button, an electric coiling protection device manual pay-off button, an electric coiling protection device manual take-up and pay-off speed adjusting knob, an electric coiling protection device external power supply line, an electric coiling protection device controllable rotating motor and an electric coiling protection device coiling shaft;
and the signal receiving processor of the electric wire coiling protection device is used for receiving parameter instructions of the integrated control platform, braking the controllable rotating motor, and controlling the length of a power supply circuit of the crawling main body and the length change of a protection lock chain of the crawling main body.
Further, the closed system 5G base station comprises a closed system 5G base station transmitting antenna, a closed system 5G base station signal indicator lamp and a closed system 5G base station power switch.
Furthermore, the crawling main body is connected with other crawling main bodies through a crawling main body noose interface and a double-crawling main body noose structure; or the crawling main body is connected with other crawling main bodies side by side through the crawling main body noose connector and the multi-main-body side by side connecting structure.
Further, the drum wheel fixing device comprises a drum wheel fixing device lasso interface and a drum wheel;
the crawling main body is connected with a lasso interface of the drum wheel fixing device through the lasso interface of the crawling main body and a drum wheel lasso structure of the crawling main body; or the drum wheel fixing device is connected with other drum wheel fixing devices through a drum wheel fixing device lasso interface and a multi-drum wheel side-by-side connecting structure.
Further, the data evaluation processing platform comprises a data evaluation processing platform starting switch, a data evaluation processing platform magnetic signal and power indicator, a data evaluation processing platform data input area and a data evaluation processing platform data processing display area;
the data input area of the data evaluation processing platform is used for inputting the pipeline inner wall magnetic signal change value and the oxide skin property data acquired by the crawling main body magnetic signal transmitting receiver;
and the data processing display area of the data evaluation processing platform is used for displaying the blockage condition of the inner wall of the pipeline.
Borrow by above-mentioned scheme, vibrate oxide skin clearance system through the microwave of crawling, have following technological effect:
1) the system can perform microwave oscillation and shedding cleaning on the oxide skin on the inner wall of the heating surface pipe after the furnace is shut down, and solves a series of problems caused by the problems of residual oxide skin, adhesion and non-fixed period shedding.
2) The system can set parameters systematically and operate automatically, reduces the labor intensity of workers, shortens the overhaul period, reduces the economic cost, and is simple, convenient, efficient and thorough in treatment.
3) The system has the advantages of stable structure, random combination, movement and repeated use, simple principle, wide applicability and strong universality, can solve the risk problem caused by a series of oxide skins, and provides a selection mode for other technical problems of pipeline cleaning.
4) The integrated control platform of the system has the advantages that after the system is arranged, an operator can remotely operate and set, simulate view display and video transmission and observation in an external proper space, the distance and the position can be accurately controlled, the safety of personnel is protected, and the working environment is improved.
5) The crawling main body of the system is made of ultralight, high-temperature-resistant, wear-resistant and corrosion-resistant materials, the power is strong, two types of handheld cleaning and automatic cleaning are available, and two modes of ultra-long lines or battery endurance are available.
6) The overlength circuit of this system adopts electronic dish line, and the system control dish line length and unwrapping wire length, the circuit main part protection chain that crawls in parallel, and the end pins the main part, prevents that the main part from falling the protection safety, and circuit length, protection chain suit with the distance of crawling, and the system integration precision control is step-by-step.
7) The forepart of the main crawling body of the system is provided with an automatic sensing locking device, so that the main crawling body is prevented from falling and separating from a pipeline due to improper set distance.
8) The 5G base stations are arranged in the closed space of the system to assist the positioning and signal transmission of the crawling main body, after the base stations at the bottom of the space are set, the crawling main body automatically increases in height, is cleaned from top to bottom through the set distance of the system, and is cruising from top to bottom, crawling automatically and processing for many times.
9) The system adopts a double-crawling main body lasso structure or a crawling main body drum wheel lasso structure to be fixed to be attached to the outer wall of the pipeline, the electromagnetic wheel hub is controlled in an auxiliary mode to be attracted, the attaching distance is guaranteed and controlled, the system is in a good working state, and the performance is stable.
10) The front end cleaning device of the system can adjust the attaching distance with the pipe wall, can replace a brush head, has different materials, lengths, hardness and hairbrushes, can be selected by scraping and brushing, and is suitable for pipelines with different environments and materials.
11) The microwave high-temperature dehydration device of the system can adjust the attaching distance with the pipe wall, and the system can sense and control the heating temperature interval, so that overheating is prevented while dehydration of the inner wall is realized.
12) The microwave oscillation device of the system can adjust the attaching distance with the pipe wall, the emission frequency is adjusted according to the real condition, and the stabilizer is used for assisting, so that the inner wall non-core protective oxide skin falls off in a microwave oscillation mode, and the whole pipeline is damaged to zero.
13) The system can be used for realizing the coordinated treatment of multiple pipelines and whole pipes by adopting a multi-main-body or multi-drum wheel side-by-side connection structure, thereby improving the overall efficiency and meeting the user requirements.
14) The system can be connected with devices such as a handheld peripheral, a battery peripheral, a lighting device peripheral, a video transmission device peripheral, an electromagnetic transmitting and receiving peripheral and the like through interfaces, can change use settings, and has flexible and various structures, wide expansibility and strong environment adaptability.
15) The system provides a data evaluation processing platform, the change value of the magnetic signal of the inner wall of the measured pipeline can be transmitted through an electromagnetic transmitting and receiving peripheral, the software platform automatically calculates, judges the blocking condition, and can analyze, evaluate and clear the cleaning cycle and the like after further acquiring the oxide skin generation and property data.
Drawings
FIG. 1 is a schematic structural diagram of a crawling microwave oscillation scale cleaning system according to the present invention;
FIG. 2 is a schematic diagram of the integrated control platform and the data evaluation platform according to the present invention;
FIG. 3 is a schematic view of an operation interface of the integrated control platform and the data evaluation processing platform according to the present invention;
FIG. 4 is a top view of the electric wire coiling protection device of the present invention;
FIG. 5 is a side view of the electric wire coiling protection device of the present invention;
FIG. 6 is a schematic diagram of a closed system 5G base station according to the present invention;
FIG. 7 is a schematic view of the inside of a crawling body according to the present invention;
FIG. 8 is an external view of a crawling body of the present invention;
FIG. 9 is a schematic structural view of a double-crawling main body noose of the present invention;
FIG. 10 is a schematic view of a drum fastening device of the present invention;
FIG. 11 is a schematic view of the structure of a drum pulley noose of the crawling main body of the present invention;
FIG. 12 is a schematic view of a side-by-side multi-body connection of the present invention;
figure 13 is a schematic view of the side-by-side connection of the multiple drums of the present invention.
Reference numbers in the figures:
1. an integrated control platform; 2. a data evaluation processing platform; 3. an electric wire coiling protection device; 4. a line positioning bracket; 5. closing the vertical space; 6. a crawling main body; 7. a vertical pipe; 8. closed system 5G base stations;
9. a main switch of the integrated control platform; 10. a battery and peripheral storage; 11. a closed system 5G base station storage place; 12. a storage place of the electric wire coiling protection device; 13. a main crawling storage place; 14. the integrated control platform pushes and pulls a protective cover plate; 15. an integrated control platform signal receiver switch; 16. an integrated control platform signal receiver; 17. a manual control area of the integrated control platform; 18. starting a switch of the integrated control platform; 19. an integrated control platform emergency stop button; 20. the manual control area indicator lamp of the integrated control platform; 21. the integrated control platform automatically controls the input area; 22. a key parameter display area of the integrated control platform; (speed, distance, washing speed, magnetic signal, 5G signal, dehydration parameter and temperature, microwave oscillation parameter, lighting parameter, hand-held mode indication); 23. a remote video transmission image display screen; 24. a spatial simulation schematic diagram display screen; 25. an automatic control area indicator lamp of the integrated control platform; 26. a data evaluation processing platform starts a switch; 27. a magnetic signal and a power indicator of the data evaluation processing platform; 28. a data input area of the data evaluation processing platform; 29. a data evaluation processing platform data processing display area; 30. the data evaluation processing platform is folded and stored;
31. an emergency stop button of the electric wire coiling protection device; 32. the electric wire coiling protection device starts a switch; 33. a signal receiving processor of the electric wire coiling protection device; 34. the electric wire coiling protection device is provided with a manual wire coiling button; 35. the electric wire coiling protection device is provided with a manual wire releasing button; 36. the electric coiling and uncoiling protection device manually retracts a linear speed adjusting knob; 37. the electric wire coiling protection device is externally connected with a power wire; 38. the electric wire coiling protection device can control a rotating motor; 39. the electric coiling protection device is used for coiling a spool; 40. the bottom of the electric wire coiling protection device is fixed with a disc; 41. the foot margin of the electric coiling protection device is fixedly locked;
42. closed system 5G base station transmit antennas; 43. a closed system 5G base station signal indicator lamp; 44. a closed system 5G base station power switch;
45. the crawling main body protects the chain; 46. crawling a main power supply line; 47. the crawling main body drives the electromagnetic hub; 48. microwave oscillation attaching and transmitting device; 49. a microwave high-temperature dehydration device; 50. cleaning and scraping the pipe wall; 51. a pipe wall cleaning brush; 52. a magnetic signal transmitter-receiver; 53. a camera at the lower end of the crawling main body; 54. a lighting device at the lower end of the crawling main body; 55. a crawling main body lasso interface; 56. microwave oscillation of the side stabilizer; 57. a crawling main battery peripheral; 58. the crawling main body holds the peripheral equipment; 59. a crawling main body front end lighting device; 60. a front camera of the crawling main body; 61. a distance sensing locking device; 62. vibrating a bottom stabilizer by microwave;
63. a double-crawling main body lasso structure; 64. a drum wheel fixing device; 65. a drum wheel fixing device lasso interface; 66. a drum; 67. a creeping main body drum wheel casing cable structure; 68. a multi-body side-by-side connection structure; 69. a multi-drum wheel side-by-side connection structure; 70. and a crawl main body signal receiving and positioning processor.
Detailed Description
The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.
Referring to fig. 1 to 13, the present embodiment provides a crawling microwave oscillation scale cleaning system, which includes an integrated control platform 1, a data evaluation processing platform 2, an electric wire coil protection device 3, a crawling main body 6, and a closed system 5G base station 8;
the integrated control platform 1 comprises a battery and peripheral storage place 10, a closed system 5G base station storage place 11, an electric wire coiling protection device storage place 12 and a crawling main body storage place 13, and is respectively used for storing a crawling main body battery peripheral 57, a closed system 5G base station 8, an electric wire coiling protection device 3 and a crawling main body 6, and is convenient to arrange and carry;
the integrated control platform 1 is connected with the crawling main body 6 through the electric wire coiling protection device 3; a crawling main body power supply line of the integrated control platform 1 is connected with a crawling main body 6 through an electric wire coiling protection device 3;
the crawling main body 6 surrounds the outer wall of the vertical pipeline 7 through a double-crawling main body noose structure 63 or a crawling main body drum noose structure 67 and a drum fixing device 64, and is used for cleaning the pipeline from top to bottom under the control of the integrated control platform 1, cruising from bottom to top, automatically crawling, processing for multiple times, and cleaning oxide skins on the inner wall of the pipeline in a microwave oscillation mode;
the closed system 5G base station 8 is arranged at the bottom of the boiler and used for positioning and signal transmission of the crawling main body 6;
the data evaluation processing platform 2 is movably connected with the side wall of the operation platform of the integrated control platform 1, and the integrated control platform 1 is provided with a data evaluation processing platform folding storage part 30 for storing the data evaluation processing platform 2;
the crawling main body 6 comprises crawling main body handheld peripherals and crawling main body battery peripherals 57, and the crawling main body 6 is provided with the crawling main body handheld peripherals and the crawling main body battery peripherals 57, is matched with the data evaluation processing platform 2 and is used for evaluating the blocking condition of the inner wall of the bottom elbow.
The crawling microwave oscillation oxide skin cleaning system can be used for performing microwave oscillation and falling cleaning on oxide skin on the inner wall of the heating surface pipe after the furnace is shut down, and a series of problems caused by the problems of oxide skin residue, adhesion and non-fixed period falling are solved. Meanwhile, parameters can be set systematically, automatic operation is achieved, labor intensity is reduced, maintenance period is shortened, economic cost is reduced, and the method is simple, efficient and thorough in treatment. The system device has the advantages of stable structure, random combination, movement and repeated use, simple principle, wide applicability and convenient operation, can solve the risk problem caused by a series of oxide skins, and also provides a selection mode for other technical problems of pipeline cleaning.
The present invention is described in further detail below.
The crawling microwave oscillation oxide skin cleaning system comprises an integrated control platform 1, a data evaluation processing platform 2, an electric wire coiling protection device 3, a line positioning support 4, a crawling main body 6, a closed system 5G base station 8, a drum wheel fixing device 64 and a crawling main body drum wheel sleeving cable structure 67.
The system equipment stored in the battery and peripheral storage place 10, the closed system 5G base station storage place 11, the electric wire coiling protection device storage place 12 and the crawling main body storage place 13 is taken out and installed and arranged according to the overall structural logic shown in fig. 1. The integrated control platform 1 and the data evaluation processing platform 2 are arranged on an external platform, the 3 closed systems 5G base stations 8 are arranged at the bottom of the boiler, the circuit positioning support 4 is installed, and a bottom fixing disc 40 and a foot fixing lock 41 for fixing the electric coil protection device 3 are arranged on the bottom of the boiler.
The crawler main body peripherals are installed as needed, including a crawler main body lower end camera 53, a crawler main body front end camera 60, a crawler main body lower end lighting device 54, and a crawler main body front end lighting device 59.
According to the condition of the outer wall of the pipeline to be cleaned, a proper pipe wall cleaning scraping brush 50 is installed, a pipe wall cleaning brush 51 can replace a brush head, and the pipe cleaning scraping brush has different materials, lengths, hardness and brush, can be selected by scraping and brushing, and is suitable for pipelines with different environments and materials.
The crawling main body protection chain 45 is connected with the electric wire coiling protection device 3, the end of the crawling main body 6 is locked, and falling is prevented to protect safety. The power supply line 46 of the crawling main body is connected with the electric wire coiling protection device 3, the crawling distance requirement is met by the overlong line, and when the line is not used, the battery peripheral 57 can be used for supplying power to the crawling main body 6.
The creeping main body noose interface 55 is connected with the creeping main body drum noose structure 67 and the drum fixing device noose interface 65, and fixed on a pipeline together, so as to ensure that the drum 66 of the drum fixing device 64 is supported on the outer wall of the pipeline. (the above is the structural connection mode of fig. 11, and other structural connection modes are shown in fig. 12 and 13).
The crawling main body 6 can be connected with other crawling main bodies 6 through a crawling main body noose interface 55 and a double-crawling main body noose structure 63;
the crawling body 6 can also be connected with other crawling bodies side by side through the crawling body noose 55 and the multi-body side-by-side connecting structure 69.
The drum fixing device 64 comprises a drum fixing device lasso interface 65 and a drum 66;
the crawling main body 6 can be connected with a drum wheel fixing device noose interface 65 through a crawling main body noose interface 55 and a crawling main body drum wheel noose structure 67;
the drum fixture 64 may be connected to other drum fixtures 64 by a drum fixture lasso interface 65 and a multi-drum side-by-side connection structure 69.
The external power line 37 of the electric wire coiling protection device is switched on, the starting switch 32 of the electric wire coiling protection device is switched on, the signal receiving processor 33 of the electric wire coiling protection device starts to work, the crawling main body 6 supplies power to work, and the emergency stop button 31 is pressed down if the abnormality exists.
The integrated control platform push-pull protection cover plate 14 is opened, and the data evaluation processing platform 2 is folded out from the system folding storage place 30.
And (3) turning on the integrated control platform main switch 9, turning on the integrated control platform signal receiver switch 15 and starting the platform signal receiver 16 to work. And (3) turning on a power switch 44 of the closed system 5G base station, enabling a base station signal indicator lamp 43 to be turned on to assist the positioning and signal transmission of the crawling main body, and setting the reference of the base station at the bottom of the space, so that the crawling main body is automatically elevated.
The platform starting switch 18 of the manual control area of the integrated control platform 1 is turned on, the manual control area indicator lamp 20 is turned on, the automatic control area indicator lamp 25 is turned on, and the platform emergency stop button 19 is pressed abnormally. And turning on a data evaluation processing platform starting switch 26, turning on a power supply indicator lamp 27, and turning on a magnetic signal indicator lamp when a magnetic signal is fed back.
The parameter input area 21 of the integrated control platform is provided with important control parameters such as the moving speed, the moving distance, the outer wall cleaning rotating speed, the microwave dehydration temperature range, the microwave oscillation frequency, the illumination intensity, the handheld mode indication and the like of the crawling main body.
The main crawling body signal receiving and positioning processor 70 is combined with a closed system 5G base station to assist the main crawling body in positioning and signal transmission, receive parameter instructions of the integrated control platform 1, control the main crawling body 6 to work, and simultaneously feed back and transmit signals to the integrated control platform 1 and the data evaluation processing platform 2. Meanwhile, the signal receiving processor 33 of the electric wire coiling protection device receives parameter instructions of the integrated control platform 1, brakes the controllable rotating motor 38, and controls the length of a power supply line 46 of the crawling main body and the length change of a protection chain 45 of the crawling main body.
The creeping main body transmission electromagnetic hub 47 receives parameter instructions of the integrated control platform 1, controls the transmission electromagnetic hub 47 to magnetically attract the outer wall of the pipeline, and adjusts the height of the hub to ensure and controls the attaching distance. Receiving the parameter instruction of the integrated control platform 1, controlling the hub stepping speed and the displacement distance, adapting the length of a crawling main body power supply line 46 and a protection chain 45 to the crawling distance, and accurately controlling the crawling main body 6 to step.
The pipe wall cleaning scraping brush 50 and the pipe wall cleaning brush 51 of the crawling main body receive parameter instructions of the integrated control platform 1, the fit distance between the pipe wall cleaning scraping brush and the pipe wall cleaning brush is adjusted, and the rotating speed of the brush and the scraping brush is adjusted.
The crawling main body microwave high-temperature dehydration device 49 receives parameter instructions of the integrated control platform 1, adjusts the attaching distance with the pipe wall, and is used for sensing and controlling the heating temperature range interval, so that overheating is prevented while dehydration of the inner wall is met.
The crawling main body microwave oscillation device 48 receives the parameter instruction of the integrated control platform 1, can adjust the attaching distance with the pipe wall, adjust the microwave oscillation frequency, assist the microwave oscillation side stabilizer 56 and the microwave oscillation bottom stabilizer 62, and enable the inner wall non-core protective oxide skin to fall off in a microwave oscillation mode, so that the whole pipeline is damaged to zero.
The crawling main body magnetic signal transmitter-receiver 52 receives the parameter instruction of the integrated control platform 1, transmits a magnetic pulse to the interior of the pipeline, receives a feedback signal, and transmits the feedback signal to the integrated control platform 1 and the data evaluation processing platform 2.
Main part of crawling is apart from sensing locking device 61 and is passed through sensor feedback signal to integrated control platform 1, and when the front end does not have the pipeline, braking electric disk line protection device 3 and main part of crawling transmission electromagnetism wheel hub 47 prevent because of setting for the main part of crawling 6 that the distance parameter leads to that drop, break away from the pipeline improper.
The crawling main body lower end camera 53, the crawling main body front end camera 60, the crawling main body lower end lighting device 54 and the crawling main body front end lighting device 59 receive parameter instructions of the integrated control platform 1, are turned off or turned on, and transmit images to the remote video transmission image display screen 23.
The remote video transmission image display screen 23 displays real-time video images of the lower pipe wall and the front space of the crawling main body.
The parameter display area 22 of the integrated control platform displays important parameters such as the moving speed, the moving distance, the outer wall cleaning rotating speed, the microwave dehydration temperature range, the microwave oscillation frequency, the illumination intensity, the magnetic signal and the 5G signal intensity of the crawling main body in real time.
The spatial simulation schematic diagram display screen 24 simulates the relative position of the crawling main body and the cleaning process according to the parameter setting and positioning signals.
The crawling main body 6 is cleaned from top to bottom according to parameters of the integrated control platform, cruises from bottom to top, crawls automatically and processes for multiple times.
After the automatic cleaning is finished, a platform can be built, the bottom elbow pipe is cleaned, and the crawling main battery peripheral 57 and the crawling main handheld peripheral 58 are installed. When the crawling main body handheld peripheral 58 is accessed, the handheld mode indicator lamp of the integrated control platform parameter display area 22 is turned on, and after a parameter instruction is set, manual operation can be performed within a small range;
the pipeline inner wall magnetic signal change value and the oxide skin property data acquired by the crawling main body magnetic signal transmitter-receiver 52 are input into the data input area 28 of the data evaluation processing platform, and the data processing display area 29 of the data evaluation processing platform displays the pipeline inner wall blockage situation, such as the blockage content exceeds the standard, and the pipe cutting processing or the microwave oscillation drainage processing is carried out.
Taking the pipe cutting process as an example, the position of a cutting opening is designed, so that the periodical overhaul operation is convenient for a plurality of times. Collecting and analyzing oxide skin after pipe cutting, performing gravimetric analysis, volumetric analysis, morphological analysis, density analysis and composition analysis, inputting oxide skin generation and property data into a data input area 28 of the data evaluation processing platform, and displaying results of post-cleaning interval period prediction and the like in a data processing display area 29 of the data evaluation processing platform.
And after the pipe is cut, the bent pipe section at the pipe cutting position and the position 0.5 m above the bent pipe are again cleaned by hand operation. And (4) re-welding the pipe cutting position after cleaning, and recovering the function of the pipe system after the nondestructive testing is qualified.
The crawling main body of the system is made of ultralight, high-temperature-resistant, wear-resistant and corrosion-resistant materials, the power is strong, two types of handheld cleaning and automatic cleaning are available, and two modes of ultra-long lines or battery endurance are available.
The crawling main body of the system comprises a handheld peripheral, a battery peripheral, a lighting device peripheral, a video transmission device peripheral, an electromagnetic transmitting and receiving peripheral and the like, the use setting can be changed, the structure is flexible and various, the expansibility is wide, and the environment adaptability is strong.
The system can be used for carrying out microwave oscillation and shedding cleaning on the oxide skin on the inner wall of the heating surface pipe after the furnace is shut down, and a series of troubles caused by the problems of residual oxide skin, adhesion and non-fixed period shedding are solved. Meanwhile, parameters can be set systematically, automatic operation is achieved, labor intensity is reduced, maintenance period is shortened, economic cost is reduced, and the method is simple, efficient and thorough in treatment. Moreover, the device can be manually operated, and is convenient and flexible for a specific environment structure.
The system device has stable structure, can be combined and moved at will, and can carry out multi-pipeline and whole-pipe coordination processing, thereby improving the overall efficiency and meeting the requirements of users. The principle is simple, the applicability is wide, the operation is convenient, the risk problem caused by a series of oxide scales can be solved, and a selection mode is provided for other technical problems of pipeline cleaning.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A crawling microwave oscillation oxide skin cleaning system is characterized by comprising an integrated control platform (1), a data evaluation processing platform (2), an electric wire coil protection device (3), a crawling main body (6) and a closed system 5G base station (8);
the integrated control platform (1) comprises a battery and peripheral storage place (10), a closed system 5G base station storage place (11), an electric wire coiling protection device storage place (12) and a crawling main body storage place (13), and the battery and peripheral storage place (57) of the crawling main body, the closed system 5G base station (8), the electric wire coiling protection device (3) and the crawling main body (6) are respectively stored in the integrated control platform;
the integrated control platform (1) is connected with the crawling main body (6) through the electric wire coiling protection device (3); a crawling main body power supply line of the integrated control platform (1) is connected with the crawling main body (6) through an electric wire coiling protection device (3);
the crawling main body (6) encircles the outer wall of the vertical pipeline (7) through a double-crawling main body noose structure (63) or a crawling main body drum noose structure (67) and a drum fixing device (64), and is used for cleaning the pipeline from top to bottom under the control of the integrated control platform (1), cruising from bottom to top, automatically crawling, processing for multiple times, and cleaning oxide skins on the inner wall of the pipeline in a microwave oscillation mode;
the closed system 5G base station (8) is arranged at the bottom of the boiler and is used for positioning the crawling main body (6) and transmitting signals;
the data evaluation processing platform (2) is movably connected with the side wall of the operating platform of the integrated control platform (1), and the integrated control platform (1) is provided with a data evaluation processing platform folding storage part (30) for storing the data evaluation processing platform (2);
the main part of crawling (6) are including the handheld peripheral hardware of the main part of crawling and main part battery peripheral hardware of crawling (57), main part of crawling (6) installation is crawled the handheld peripheral hardware of main part and is crawled main part battery peripheral hardware (57), and with data evaluation handles platform (2) cooperation for bottom return bend inner wall blocks up the condition and assesses.
2. The crawling microwave shock scale cleaning system according to claim 1, further comprising a mounting line positioning bracket (4) for fixing a power supply line of a crawling main body, a bottom fixing disc (40) for fixing the electric wire coiling protection device (3) and a ground fixing lock (41).
3. The crawling microwave shock scale cleaning system according to claim 1, wherein the crawling main body (6) is connected with the electric wire coiling protection device (3) through a crawling main body protection chain (45).
4. The crawling microwave shock scale cleaning system according to claim 1, wherein the integrated control platform (1) comprises an integrated control platform main switch (9), an integrated control platform push-pull protection cover plate, an integrated control platform signal receiver switch (15), an integrated control platform signal receiver (16), an integrated control platform manual control area (17), an integrated control platform start switch (18), an integrated control platform emergency stop button (19), an integrated control platform manual control area indicator lamp (20), an integrated control platform automatic control input area (21), an integrated control platform key parameter display area (22), a remote video transmission image display screen (23), a space simulation schematic diagram display screen (24) and an integrated control platform automatic control area indicator lamp (25);
the integrated control platform parameter input area (21) is used for setting crawling main body control parameters, and the control parameters comprise crawling main body moving speed, moving distance, outer wall cleaning rotating speed, microwave dehydration temperature range, microwave oscillation frequency, illumination intensity and handheld mode indication;
the remote video transmission image display screen (23) is used for displaying real-time video images of the lower pipe wall and the front section space of the crawling main body;
the integrated control platform parameter display area (22) is used for displaying the moving speed, the moving distance, the outer wall cleaning rotating speed, the microwave dehydration temperature range, the microwave oscillation frequency, the illumination intensity, the magnetic signal and the 5G signal intensity parameter of the crawling main body in real time;
the space simulation schematic diagram display screen (24) is used for simulating the relative position of the crawling main body and the cleaning process according to parameter setting and positioning signals.
5. The crawling microwave oscillation scale cleaning system according to claim 4, wherein the crawling main body (6) comprises a crawling main body transmission electromagnetic hub (47), a microwave oscillation attachment transmitting device (48), a microwave high-temperature dewatering device (49), a pipe wall cleaning scraping brush (50), a pipe wall cleaning brush (51), a magnetic signal transmitting receiver (52), a crawling main body lower end camera (53), a crawling main body lower end lighting device (54), a crawling main body noose interface (55), a microwave oscillation side stabilizer (56), a crawling main body front end lighting device (59), a crawling main body front end camera (60), a distance sensing locking device (61), a microwave oscillation bottom stabilizer (62) and a crawling main body signal receiving positioning processor (70);
the crawling main body signal receiving and positioning processor (70) is used for combining a closed system 5G base station, assisting in crawling main body positioning and signal transmission, receiving parameter instructions of the integrated control platform (1), controlling the crawling main body (6) to work, and feeding back transmission signals to the integrated control platform (1) and the data evaluation processing platform (2);
the crawling main body transmission electromagnetic hub (47) is used for receiving parameter instructions of the integrated control platform (1), magnetically attracting the outer wall of a pipeline, adjusting the height guarantee of the hub, controlling the fitting distance, controlling the stepping speed and the displacement distance of the hub, enabling the lengths of a crawling main body power supply line (46) and a crawling main body protection chain (45) to be matched with the crawling distance, and accurately controlling the stepping of the crawling main body (6);
the crawling main body pipe wall cleaning scraping brush (50) and the pipe wall cleaning hairbrush (51) are used for receiving parameter instructions of the integrated control platform (1), adjusting the fit distance with the pipe wall and adjusting the rotating speed of the hairbrush and the scraping brush;
the crawling main body microwave high-temperature dehydration device (49) is used for receiving parameter instructions of the integrated control platform (1), adjusting the fit distance with the pipe wall, and controlling the heating temperature range through sensing to meet the dehydration requirement of the inner wall and prevent overheating;
the crawling main body microwave oscillation device (48) is used for receiving parameter instructions of the integrated control platform (1), adjusting the attaching distance with the pipe wall, adjusting the microwave oscillation frequency, assisting with a microwave oscillation side stabilizer (56) and a microwave oscillation bottom stabilizer (62), and enabling the inner wall non-core protective oxide skin to fall off in a microwave oscillation mode;
the crawling main body magnetic signal transmitting and receiving device (52) is used for receiving parameter instructions of the integrated control platform (1), transmitting magnetic pulses to the interior of the pipeline, receiving feedback signals and transmitting the feedback signals to the integrated control platform (1) and the data evaluation processing platform (2);
the crawling main body distance sensing locking device (61) is used for transmitting a sensor feedback signal to the integrated control platform (1), and when the front end has no pipeline, the electric disc wire protection device (3) and the crawling main body transmission electromagnetic hub (47) are braked so as to prevent the crawling main body (6) from falling off and separating from the pipeline due to improper set distance parameters;
the crawling main body lower end camera (53), the crawling main body front end camera (60), the crawling main body lower end lighting device (54) and the crawling main body front end lighting device (59) are used for receiving parameter instructions of the integrated control platform (1), executing closing or opening actions, and transmitting images to the remote video transmission image display screen (23).
6. The crawling microwave shock scale cleaning system according to claim 3, wherein the electric coiling protection device (3) comprises an electric coiling protection device emergency stop button (31), an electric coiling protection device start switch (32), an electric coiling protection device signal receiving processor (33), an electric coiling protection device manual take-up button (34), an electric coiling protection device manual pay-off button (35), an electric coiling protection device manual take-up and pay-off linear speed adjusting knob (36), an electric coiling protection device external power line (37), an electric coiling protection device controllable rotating motor (38) and an electric coiling protection device coiling shaft (39);
the signal receiving processor (33) of the electric wire coiling protection device is used for receiving parameter instructions of the integrated control platform (1), braking the controllable rotating motor (38), and controlling the length of a power supply circuit (46) of the crawling main body and the length change of a protection chain (45) of the crawling main body.
7. The crawling microwave oscillating scale cleaning system according to claim 1, wherein the closed system 5G base station (8) comprises a closed system 5G base station transmitting antenna (42), a closed system 5G base station signal indicator lamp (43) and a closed system 5G base station power switch (44).
8. The crawling microwave shock scale cleaning system according to claim 5, wherein the crawling main body (6) is connected with other crawling main bodies through a crawling main body noose interface (55) and a double crawling main body noose structure (63); or the crawling main body (6) is connected with other crawling main bodies side by side through a crawling main body noose interface (55) and a multi-main-body side-by-side connecting structure (69).
9. The crawling microwave shock scale cleaning system as claimed in claim 8, wherein the drum fixture (64) comprises a drum fixture lasso interface (65), a drum (66);
the crawling main body (6) is connected with a lasso interface (65) of a drum wheel fixing device through the lasso interface (55) of the crawling main body and a drum wheel lasso structure (67) of the crawling main body; or the drum wheel fixing device (64) is connected with other drum wheel fixing devices through a drum wheel fixing device lasso interface (65) and a multi-drum wheel side-by-side connecting structure (69).
10. The crawling microwave oscillating scale cleaning system according to claim 5, wherein the data evaluation platform (2) comprises a data evaluation platform start switch (26), a data evaluation platform magnetic signal and power indicator (27), a data evaluation platform data input area (28), and a data evaluation platform data processing display area (29);
the data input area (28) of the data evaluation processing platform is used for inputting the pipeline inner wall magnetic signal change value acquired by the crawling main body magnetic signal transmitter-receiver (52) and scale property data;
and the data processing display area (29) of the data evaluation processing platform is used for displaying the blockage condition of the inner wall of the pipeline.
CN202110499554.0A 2021-05-08 2021-05-08 Crawling microwave oscillation oxide skin cleaning system Active CN113294772B (en)

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Citations (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004211996A (en) * 2003-01-07 2004-07-29 Mitsubishi Heavy Ind Ltd Steam oxidation scale removing process and device
JP2010091205A (en) * 2008-10-09 2010-04-22 Kawasaki Plant Systems Ltd Vertical type heat exchanger of lime baking plant
CN103030190A (en) * 2011-10-10 2013-04-10 上海嘉洲环保机电设备有限责任公司 Wheel set traction automatic leaning type ultraviolet inactivation device
US20150148949A1 (en) * 2013-11-26 2015-05-28 Elwha Llc Structural assessment, maintenance, and repair apparatuses and methods
CN205792986U (en) * 2015-10-16 2016-12-07 中国大唐集团科学技术研究院有限公司西北分公司 A kind of superheater Process of Chemical Cleaning supervising device
CN106311689A (en) * 2016-08-29 2017-01-11 山东胜伟园林科技有限公司 Dirt removal device for salt drainage pipeline
CN207881555U (en) * 2018-01-31 2018-09-18 中国大唐集团科学技术研究院有限公司西北分公司 A kind of heat power plant boiler heating surface tube accumulation oxide skin cleaning plant
CN108816970A (en) * 2018-05-23 2018-11-16 杨小洲 A kind of pipeline greasy dirt removal device being laid with based on hearth horizontal vertical
CN109114355A (en) * 2018-10-25 2019-01-01 南京水动力信息科技有限公司 A kind of pipe network Robot system
CN209386887U (en) * 2018-11-30 2019-09-13 圣奥化学科技有限公司 Cleaning device
CN210832052U (en) * 2019-06-27 2020-06-23 浙江哲丰能源发展有限公司 Cleaning device for chimney of thermoelectric boiler
WO2020126370A1 (en) * 2018-12-21 2020-06-25 Siemens Aktiengesellschaft System and method for cleaning heat exchanger tubes
CN211976912U (en) * 2020-04-03 2020-11-20 华能渑池热电有限责任公司 Collapsible snakelike bank of tubes ash removal device
CN212005736U (en) * 2020-01-02 2020-11-24 北京朝京环保能源科技股份有限公司 Vibrating ash removal system
CN112224296A (en) * 2020-09-11 2021-01-15 南京驭逡通信科技有限公司 Crawling robot for cleaning outer surface of pipeline
CN112238110A (en) * 2019-07-17 2021-01-19 彭志军 Ultrasonic pipeline cleaning and dredging device capable of freely moving in pipeline
CN212841655U (en) * 2020-06-19 2021-03-30 华润电力(常熟)有限公司 Boiler pipeline cinder comprehensive cleaning device

Patent Citations (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004211996A (en) * 2003-01-07 2004-07-29 Mitsubishi Heavy Ind Ltd Steam oxidation scale removing process and device
JP2010091205A (en) * 2008-10-09 2010-04-22 Kawasaki Plant Systems Ltd Vertical type heat exchanger of lime baking plant
CN103030190A (en) * 2011-10-10 2013-04-10 上海嘉洲环保机电设备有限责任公司 Wheel set traction automatic leaning type ultraviolet inactivation device
US20150148949A1 (en) * 2013-11-26 2015-05-28 Elwha Llc Structural assessment, maintenance, and repair apparatuses and methods
CN205792986U (en) * 2015-10-16 2016-12-07 中国大唐集团科学技术研究院有限公司西北分公司 A kind of superheater Process of Chemical Cleaning supervising device
CN106311689A (en) * 2016-08-29 2017-01-11 山东胜伟园林科技有限公司 Dirt removal device for salt drainage pipeline
CN207881555U (en) * 2018-01-31 2018-09-18 中国大唐集团科学技术研究院有限公司西北分公司 A kind of heat power plant boiler heating surface tube accumulation oxide skin cleaning plant
CN108816970A (en) * 2018-05-23 2018-11-16 杨小洲 A kind of pipeline greasy dirt removal device being laid with based on hearth horizontal vertical
CN109114355A (en) * 2018-10-25 2019-01-01 南京水动力信息科技有限公司 A kind of pipe network Robot system
CN209386887U (en) * 2018-11-30 2019-09-13 圣奥化学科技有限公司 Cleaning device
WO2020126370A1 (en) * 2018-12-21 2020-06-25 Siemens Aktiengesellschaft System and method for cleaning heat exchanger tubes
CN210832052U (en) * 2019-06-27 2020-06-23 浙江哲丰能源发展有限公司 Cleaning device for chimney of thermoelectric boiler
CN112238110A (en) * 2019-07-17 2021-01-19 彭志军 Ultrasonic pipeline cleaning and dredging device capable of freely moving in pipeline
CN212005736U (en) * 2020-01-02 2020-11-24 北京朝京环保能源科技股份有限公司 Vibrating ash removal system
CN211976912U (en) * 2020-04-03 2020-11-20 华能渑池热电有限责任公司 Collapsible snakelike bank of tubes ash removal device
CN212841655U (en) * 2020-06-19 2021-03-30 华润电力(常熟)有限公司 Boiler pipeline cinder comprehensive cleaning device
CN112224296A (en) * 2020-09-11 2021-01-15 南京驭逡通信科技有限公司 Crawling robot for cleaning outer surface of pipeline

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
王大伟等: "电磁检测技术在锅炉受热面管道清洁上的应用", 《中国电业(技术版)》 *

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