CN110142141B

CN110142141B - Comprehensive rapping device for ash bucket of electrostatic dust collector for power plant

Info

Publication number: CN110142141B
Application number: CN201910525692.4A
Authority: CN
Inventors: 王烨
Original assignee: Xinchang Yixulong Machinery Technology Co ltd
Current assignee: Xinchang Yixulong Machinery Technology Co.,Ltd.
Priority date: 2019-06-18
Filing date: 2019-06-18
Publication date: 2020-06-16
Anticipated expiration: 2039-06-18
Also published as: CN110142141A

Abstract

The invention relates to a rapping device for preventing an ash bucket of a large-scale electrostatic dust collector from being blocked by accumulated ash, which comprises an air inlet, an air outlet, an electrostatic dust collector and a dust collector, wherein the air inlet is communicated with the air outlet; the dust collecting device comprises a dust hopper and a dust hopper rapping device; the ash bucket is in a conical funnel shape; the ash bucket rapping device comprises a spiral double-guide rail and a movable rapping device; the spiral double guide rails spirally rise along the outer wall of the ash bucket, and the distances between the spiral double guide rails and the outer wall of the ash bucket are equal everywhere; the movable vibrator is arranged on the spiral double guide rails and spirally moves around the outer wall of the ash hopper along the guide rails; the invention adopts the spiral double guide rails which spirally rise around the outer wall of the ash bucket to realize the all-round no-dead-angle vibration of the whole ash bucket, improves the vibration efficiency, can remove more than 90 percent of deposited ash in the ash bucket, and simultaneously reduces the device structure of the movable vibration device.

Description

Comprehensive rapping device for ash bucket of electrostatic dust collector for power plant

Technical Field

The invention relates to a rapping device for preventing an ash bucket of an electrostatic dust collector from being blocked by accumulated ash.

Background

With the continuous deepening of industrialization in China, the problem of environmental pollution is increasingly prominent, and especially, atmospheric pollution is a hot spot of social attention. Aiming at industries with large pollution discharge amount of industrial waste gas such as building materials, metallurgy, chemical industry, electric power and the like, the discharged gas must be subjected to dust removal treatment, and a large-scale electric dust remover is one of main devices for removing dust from industrial flue gas in China.

The ash bucket is an important part for collecting dust in the electrostatic dust collector, and the moisture content, the granularity change, the temperature change, the storage time and the friction coefficient of the inner wall of the ash bucket in the ash bucket are reasons for forming the hanging materials on the wall of the bin. The ash in the ash bucket has high viscosity and can be adhered to the inner wall of the ash bucket, and accumulated ash can be formed after a long time and is difficult to remove. The ash bucket has the main phenomena of bridging, ash expansion, ash accumulation hardening, outlet blockage and the like, the ash accumulation viscosity is high, if the problems are not solved in time, the ash accumulation is too much, the ash discharging is not smooth, the machine needs to be stopped for maintenance, after the ash valve is disassembled and removed, the tool needs to be used for dredging, and the working strength is high.

At present, the method for clearing the deposited dust in the ash bucket of the large electrostatic dust collector mainly comprises manual beating or adopting a rapping device arranged on the ash bucket to realize the normal work of the ash bucket, wherein the mechanical rapping comprises two modes, namely fixed position rapping and movable rapping, as shown in the attached figure 1, the fixed position rapping is that a rapping hammer a-1 is arranged at a fixed position of the ash bucket, the movable rapping is that guide rails b-1 and b-2 in the circumferential direction or the vertical direction are arranged on the ash bucket, and the rapping devices c-1 and c-2 move along the guide rails and perform rapping dust removal on the ash bucket.

Although the manual beating can be cleaned completely, the manual beating is long in time consumption and low in efficiency, mechanical damage can be caused to the ash bucket due to uncontrollable force of the manual beating, the height of the ash bucket of the electrostatic dust collector for the industry is different from that of the ash bucket of the electrostatic dust collector for the industry from several meters to dozens of meters, and time and labor are wasted by using a manual mode.

The invention patent application, for example, CN105689144A, which adopts fixed position vibration, has fixed vibration strength and position, and has limited effect on cleaning accumulated dust because of the rapid attenuation of vibration force transmission.

The invention adopts movable rapping, such as the invention patent application with the publication number of CN104941811A, and adopts a movable guide rail movable rapping device, which comprises a motor vibrator and other transmission components, the transmission and rapping structure is complex, the cost is high, and simultaneously, only one side of an ash bucket can be rapped, the accumulated ash cleaning effect is better than that of fixed position rapping, but the accumulated ash in the ash bucket cannot be completely cleaned.

Disclosure of Invention

The invention provides a comprehensive rapping device for an ash bucket of a large-scale electrostatic dust collector for a power plant, aiming at the problems of low efficiency, poor ash removal effect, complex rapping device and high cost of the rapping device in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows: a comprehensive rapping device for an ash bucket of an electrostatic dust collector comprises an air inlet, an air outlet, an electrostatic dust collector and a dust collector; the dust collecting device comprises a dust hopper and a dust hopper rapping device; the method is characterized in that: the ash bucket is in a conical funnel shape; the ash bucket rapping device comprises a spiral double-guide rail and a movable rapping device; the spiral double guide rails spirally ascend along the outer wall of the ash bucket and ascend from the bottom of the ash bucket to the top of the ash bucket, and the distances between the spiral double guide rails and the outer wall of the ash bucket are equal everywhere; the movable vibrator is arranged on the spiral double guide rails and performs spiral reciprocating motion around the outer wall of the ash hopper along the guide rails; the movable vibrator comprises a vibrating part and a moving part, the vibrating part comprises cross-shaped supports, a spherical vibrating ball is mounted at the top end of each support of each cross-shaped support, and each support of each cross-shaped support is movably connected with the spherical vibrating ball through an elastic connecting piece; the moving part comprises a pulley block consisting of a plurality of pulleys, a pulley block bracket, a controller, a motor, a speed reducer, a transmission rod, an energy storage device and an electromagnet; the pulley block and the electromagnet are arranged on the inner side of the lower end of the pulley block bracket; the pulley block and the spiral double guide rail are matched and installed together and can roll on the spiral double guide rail; the energy storage device is arranged in the pulley block bracket and is respectively connected with the pulley block, the electromagnet, the controller and the motor through wires; the controller is arranged on the upper part of the pulley block bracket, is respectively connected with the motor and the energy storage device and is used for controlling the rotation of the motor and the input and output of electric energy of the energy storage device; the motor is installed assembly pulley support upper portion, motor one end with assembly pulley support upper portion fixed connection, the other end of motor is connected with the reduction gear, the reduction gear is connected with the transfer line, the top fixed connection of transfer line be in the portion of rapping the centre of cross support, drive the rotation of cross support.

Preferably, the elastic connecting member is a spring or a leaf spring or a torsion spring.

Preferably, the spherical vibrating hitting ball comprises an inner layer made of spherical ferromagnetic metal, an outer layer made of elastic corrosion-resistant wear-resistant layer, and patterns for increasing friction force arranged on the surface of the outer layer.

Preferably, the outer layer of the spherical rapping ball is made of rubber.

Preferably, the pulley block bracket is further provided with a sound collecting device, and the sound collecting device is connected with the controller.

Preferably, the head end and the tail end of the spiral double guide rail are provided with a buffer device.

Preferably, the head end of the spiral double guide rail is connected with a power supply to supply power to the spiral double guide rail and the movable vibrator.

Preferably, the pulleys of the pulley block are made of electrically conductive material.

Preferably, the hopper is made of a paramagnetic material.

The invention has the beneficial effects that: the spiral double guide rails spirally rising around the outer wall of the ash bucket are adopted to realize all-dimensional no-dead-angle vibration of the whole ash bucket, so that the vibration efficiency is improved, and more than 90% of deposited ash in the ash bucket can be removed; meanwhile, the motor is adopted to drive the cross-shaped support to drive the spherical vibrating ball at the tail end of the support to move on the spiral double guide rails through the static friction between the spherical vibrating ball and the outer surface of the ash bucket, and meanwhile, the spherical vibrating ball vibrates the ash bucket, so that the device structure of the movable vibrating device is simplified, and the manufacturing cost is reduced.

Drawings

FIG. 1 is a prior art rapping device;

FIG. 2 is a schematic structural view of an ash bucket provided with a spiral double guide rail;

FIG. 3 is a structural diagram of the overall structure of the overall rapping device of the ash hopper of the electrostatic precipitator

FIG. 4 is an overall configuration diagram of a mobile rapping device in embodiment 1;

FIG. 5 is an overall configuration diagram of a mobile rapping device in embodiment 2;

FIG. 6 is a structural view of a rapping portion of the mobile rapping device;

FIG. 7 is a structural view showing the cooperation between the moving part of the mobile vibrator and the spiral dual-guide rail;

FIG. 8 is a logic diagram for judging the rapping in example 2;

description of reference numerals: 1. an ash hopper; 2. a helical double guide rail; 3. moving a vibrator; 3-1, a rapping part; 3-1-1, a cross-shaped bracket; 3-1-2, vibrating and hitting a ball in a spherical shape; 3-1-3, elastic connecting piece; 3-2, a moving part; 3-2-1, a pulley block bracket; 3-2-2, pulley block; 3-2-3, a controller; 3-2-4, a motor; 3-2-5, a reducer; 3-2-6, a transmission rod; 3-2-7, an energy storage device; 3-2-8 parts of electromagnet; 3-2-9, a sound collection device; 4. a buffer device; 5. a power supply;

Detailed Description

Example 1

As shown in the attached figures 2-4 and 6-7, the comprehensive rapping device of the ash bucket of the electrostatic dust collector for the power plant comprises an air inlet, an air outlet, an electrostatic dust collector and a dust collector; the dust collecting device comprises a dust hopper 1 and a dust hopper rapping device; the ash bucket 1 is in a conical funnel shape; the ash bucket rapping device comprises a spiral double-guide rail 2 and a movable rapping device 3; the spiral double-guide rail 2 spirally rises along the outer wall of the ash bucket and rises from the bottom of the ash bucket 1 to the top of the ash bucket 1, and the distances between the spiral double-guide rail 2 and the outer wall of the ash bucket 1 are equal everywhere; the movable vibrator 3 is arranged on the spiral double guide rail 2 and spirally moves around the outer wall of the ash hopper along the guide rail; the spiral double guide rails 2 are made of ferromagnetic conductive materials; the movable vibrator 3 comprises a vibrating part 3-1 and a moving part 3-2, the vibrating part comprises cross-shaped supports 3-1-1, a spherical vibrating ball 3-1-2 is arranged at the top end of each support of the cross-shaped supports 3-1-1, and the cross-shaped supports 3-1-1 are movably connected with the spherical vibrating balls 3-1-2 through elastic connecting pieces 3-1-3; the moving part 3-2 comprises a pulley block bracket 3-2-1, a pulley block 3-2-2 consisting of a plurality of pulleys, a controller 3-2-3, a motor 3-2-4, a speed reducer 3-2-5, a transmission rod 3-2-6, an energy storage device 3-2-7 and an electromagnet 3-2-8; the pulley block 3-2-2 and the electromagnet 3-2-8 are arranged on the inner side of the lower end of the pulley block bracket 3-2-1; the pulley block 3-2-2 and the spiral double guide rail 2 are matched and installed together and can roll on the spiral double guide rail 2; the energy storage device 3-2-7 is arranged inside the pulley block bracket 3-2-1 and is respectively connected with the pulley block 3-2-2, the electromagnet 3-2-8, the controller 3-2-3 and the motor 3-2-4 through wires; the pulley blocks 3-2-2 arranged at the lower part of the pulley block bracket 3-2-1 in the moving part 3-2 are divided into two groups, the pulleys of the pulley blocks 3-2-2 are provided with grooves matched with the guide rails of the spiral double guide rails 2, and each group of pulleys are respectively meshed with the guide rails of the spiral double guide rails 2. The controller 3-2-3 is arranged at the upper part of the pulley block bracket 3-2-1, and the controller 3-2-3 is respectively connected with the motor 3-2-4 and the energy storage device 3-2-7 and is used for controlling the motor 3-2-4 to rotate and the energy storage device 3-2-7 to input or output electric energy; the motor 3-2-4 is arranged on the upper part of the pulley block bracket 3-2-1, one end of the motor 3-2-4 is fixedly connected with the upper part of the pulley block bracket 3-2-1, the other end of the motor 3-2-4 is connected with the speed reducer 3-2-5, the speed reducer 3-2-5 is connected with the transmission rod 3-2-6, the top end of the transmission rod 3-2-6 is fixedly connected with the middle of the cross bracket 3-1-1 of the rapping part 3-1, and the cross bracket 3-1-1 is driven to rotate.

The elastic connecting piece 3-1-3 can be a spring or a plate spring or a torsion spring or other elastic devices which can be restored and is used for reducing the vibration which is transmitted to the cross-shaped bracket 3-1-1 by the spherical vibrating ball 3-1-2 when the ash bucket 1 is vibrated. The inner layer of the spherical vibrating hitting ball 3-1-2 is made of spherical ferromagnetic metal, the outer layer is an elastic corrosion-resistant wear-resistant layer, the surface of the outer layer is provided with patterns for increasing friction force and used for increasing static friction force when the outer layer is contacted with the outer wall of the ash hopper 1 made of corrosion-resistant paramagnetic materials such as 304 stainless steel, and the outer layer of the spherical vibrating hitting ball 3-1-2 can also be made of rubber.

The head end and the tail end of the spiral double guide rail 2 are provided with a buffer device 4. The head end of the spiral double guide rail 2 is connected with a power supply 5 for supplying power to the spiral double guide rail 2 and the movable vibrator 3, the spiral double guide rail 2 is made of ferromagnetic conductive materials, and the pulleys of the pulley block 3-2-2 are made of conductive materials.

The working principle is that the controller 3-2-3 starts the motor 3-2-4, the power of the motor 3-2-4 is output to the cross-shaped bracket 3-1-1 of the rapping part 3-1 through the speed regulation of the speed reducer 3-2-5, the cross-shaped bracket 3-1-1 rotates to drive the spherical rapping ball 3-1-2 at the top end of each bracket to impact the outer wall of the ash bucket 1 to realize rapping, and simultaneously, because the outer surface of the spherical rapping ball 3-1-2 is provided with patterns for increasing friction force, the static friction force generated between the spherical rapping ball 3-1-2 and the outer wall of the ash bucket 1 is utilized to realize the movement of the moving part 3-2 of the moving rapping device 3 on the spiral double guide rails 2.

When the device works, the controller 3-2-3 controls the energy storage device 3-2-7 to supply power to the electromagnet 3-2-8, the electromagnet 3-2-8 generates magnetism to enable the electromagnet 3-2-8 and the spiral double guide rail 2 to attract each other, so that the pulley block bracket 3-2-1 generates slight elastic deformation, and further, a pulley on the pulley block 3-2-2 is driven to be tightly attached to the spiral double guide rail 2 to prevent derailment.

When the rapping device operates, the power supply 5 is respectively connected with the two guide rails of the spiral double guide rail 2 through power lines, as the spiral double guide rail 2 is made of ferromagnetic conductive materials, electric energy is conducted to the pulleys of the pulley block 3-2-2 through the guide rails and then is connected to the energy storage device 3-2-7 through the lead of the pulley block 3-2-2, and the controller 3-2-3 controls the energy storage device 3-2-7 to input and output the electric energy.

Example 2

As shown in the attached figures 2-3 and 5-7, the comprehensive rapping device of the ash bucket of the electrostatic dust collector for the power plant comprises an air inlet, an air outlet, an electrostatic dust collector and a dust collector; the dust collecting device comprises a dust hopper 1 and a dust hopper rapping device; the ash bucket 1 is in a conical funnel shape; the ash bucket rapping device comprises a spiral double-guide rail 2 and a movable rapping device 3; the spiral double-guide rail 2 spirally rises along the outer wall of the ash bucket and rises from the bottom of the ash bucket 1 to the top of the ash bucket 1, and the distances between the spiral double-guide rail 2 and the outer wall of the ash bucket 1 are equal everywhere; the movable vibrator 3 is arranged on the spiral double guide rail 2 and spirally moves around the outer wall of the ash hopper along the guide rail; the helical double track 2 is made of ferromagnetic conductive material.

The movable vibrator 3 comprises a vibrating part 3-1 and a moving part 3-2, the vibrating part comprises cross-shaped supports 3-1-1, a spherical vibrating ball 3-1-2 is arranged at the top end of each support of the cross-shaped supports 3-1-1, and the cross-shaped supports 3-1-1 are movably connected with the spherical vibrating balls 3-1-2 through elastic connecting pieces 3-1-3;

the moving part 3-2 comprises a pulley block bracket 3-2-1, a pulley block 3-2-2 consisting of a plurality of pulleys, a controller 3-2-3, a motor 3-2-4, a speed reducer 3-2-5, a transmission rod 3-2-6, an energy storage device 3-2-7, an electromagnet 3-2-8 and a sound collecting device 3-2-9; the pulley block 3-2-2 and the electromagnet 3-2-8 are arranged on the inner side of the lower end of the pulley block bracket 3-2-1; the pulley block 3-2-2 and the spiral double guide rail 2 are matched and installed together and can roll on the spiral double guide rail 2; the energy storage device 3-2-7 is arranged inside the pulley block bracket 3-2-1 and is respectively connected with the pulley block 3-2-2, the electromagnet 3-2-8, the controller 3-2-3 and the motor 3-2-4 through wires; the pulley blocks 3-2-2 arranged at the lower part of the pulley block bracket 3-2-1 in the moving part 3-2 are divided into two groups, the pulleys of the pulley blocks 3-2-2 are provided with grooves matched with the guide rails of the spiral double guide rails 2, and each group of pulleys are respectively meshed with the guide rails of the spiral double guide rails 2. The controller 3-2-3 is arranged at the upper part of the pulley block bracket 3-2-1, and the controller 3-2-3 is respectively connected with the motor 3-2-4, the energy storage device 3-2-7 and the sound collecting device 3-2-9 and is used for controlling the motor 3-2-4 to rotate and the energy storage device 3-2-7 to input or output electric energy; 3-2-4 is arranged on the upper part of the pulley block bracket 3-2-1, one end of the motor 3-2-4 is fixedly connected with the upper part of the pulley block bracket 3-2-1, the other end of the motor 3-2-4 is connected with a speed reducer 3-2-5, the speed reducer 3-2-5 is connected with a transmission rod 3-2-6, the top end of the transmission rod 3-2-6 is fixedly connected with the middle of the cross bracket 3-1-1 of the rapping part 3-1, and the cross bracket 3-1-1 is driven to rotate.

The controller 3-2-3 collects the sound signal generated by the movable rapping device 3 during working through the sound collecting device 3-2-9 to judge whether the ash hopper has the risk of blockage and whether the rapping achieves the ash cleaning effect. The operation method comprises the following steps: as shown in the attached figure 8, (1) when the electrostatic dust collector starts to operate, the controller 3-2-3 controls the mobile rapping device 3 to operate a rapping period (the rapping period refers to that the mobile rapping device 3 moves from the bottom to the top of the ash bucket 1 along the spiral double guide rail 2 and then returns to the bottom), the sound collecting device 3-2-9 collects sound signals generated when the spherical rapping ball 3-1-2 and the outer wall of the ash bucket 1 impact each time in the whole rapping period, so as to obtain discrete sound signals in the whole rapping period, and the controller 3-2-3 carries out discrete Fourier transform on the collected discrete sound signals in the whole rapping period so as to obtain a standard rapping frequency spectrum consisting of discrete frequency domain signals in the whole rapping period; (2) after the electrostatic dust collector operates for a period of time (the time is an empirical value selected according to the actual working condition of the electrostatic dust collector, such as 8 hours, 10 hours and the like), the controller 3-2-3 starts the mobile rapping device 3 again to operate for the first rapping period, the sound collecting device 3-2-9 collects sound signals generated when the spherical rapping ball 3-1-2 and the outer wall of the ash hopper 1 impact each time in the whole rapping period, discrete sound signals in the whole rapping period are obtained, and the controller 3-2-3 carries out discrete Fourier transform on the collected discrete sound signals in the whole rapping period to obtain a rapping frequency spectrum 1 consisting of discrete frequency domain signals in the whole rapping period; (3) comparing the similarity of the standard rapping frequency spectrum and the rapping frequency spectrum 1, if the similarity of the standard rapping frequency spectrum and the rapping frequency spectrum 1 is more than 20 percent, judging that the ash hopper 1 is not blocked, and controlling the movable rapping device 3 to stop rapping by the controller 3-2-3; if the similarity between the two is less than 20 percent, the ash hopper 1 is judged to be blocked, and the controller 3-2-3 controls the movable vibrator 3 to continuously vibrate; (4) in the second rapping period, collecting sound signals through a sound collecting device 3-2-9 and repeating the signal processing steps to obtain a rapping frequency spectrum 2, when the similarity of the rapping frequency spectrum 2 compared with the standard rapping frequency spectrum is more than 80 percent, considering that the ash removal effect is achieved, and controlling a movable rapping device 3 to stop rapping by a controller 3-2-3; (5) when the similarity of the comparison between the rapping frequency spectrum 2 and the standard rapping frequency spectrum is less than 80%, the deashing effect is not considered to be achieved, the controller 3-2-3 controls the mobile rapping device 3 to continuously rap for the third rapping period to obtain the rapping frequency spectrum 3, the rapping frequency spectrum 3 is returned to (4) and (5), the rapping frequency spectrum 2 is replaced by the rapping frequency spectrum 3 … …, and so on, when the rapping is carried out to the Nth rapping period, the rapping frequency spectrum N is obtained (N is 4, 5, 6 … …), the rapping frequency spectrum N is returned to (4) and (5), and the rapping frequency spectrum 2 is replaced by the rapping frequency spectrum N.

When the device works, the controller 3-2-3 controls the energy storage device 3-2-7 to supply power to the electromagnet 3-2-8, the electromagnet 3-2-8 generates magnetism to enable the electromagnet 3-2-8 and the spiral double guide rail 2 to attract each other, so that the pulley block bracket 3-2-1 generates slight elastic deformation to drive a pulley on the pulley block 3-2-2 to be tightly attached to the spiral double guide rail 2, and derailment is prevented.

The foregoing is merely a preferred embodiment of the invention and the technical principles applied, and any changes or alternative embodiments that can be easily conceived by those skilled in the art within the technical scope of the invention disclosed herein should be covered within the scope of the invention.

Claims

1. A comprehensive rapping device of an ash bucket of an electrostatic dust collector for a power plant comprises an air inlet, an air outlet, an electrostatic dust collector and a dust collector; the dust collecting device comprises a dust hopper and a dust hopper rapping device; the method is characterized in that: the ash bucket is in a conical funnel shape; the ash bucket rapping device comprises a spiral double-guide rail and a movable rapping device; the spiral double guide rails spirally ascend along the outer wall of the ash bucket and ascend from the bottom of the ash bucket to the top of the ash bucket, and the distances between the spiral double guide rails and the outer wall of the ash bucket are equal everywhere; the movable vibrator is arranged on the spiral double guide rails and performs spiral reciprocating motion around the outer wall of the ash hopper along the guide rails; the movable vibrator comprises a vibrating part and a moving part, the vibrating part comprises cross-shaped supports, a spherical vibrating ball is mounted at the top end of each support of each cross-shaped support, and each support of each cross-shaped support is movably connected with the spherical vibrating ball through an elastic connecting piece; the moving part comprises a pulley block consisting of a plurality of pulleys, a pulley block bracket, a controller, a motor, a speed reducer, a transmission rod, an energy storage device and an electromagnet; the pulley block and the electromagnet are arranged on the inner side of the lower end of the pulley block bracket; the pulley block and the spiral double guide rail are matched and installed together and can roll on the spiral double guide rail; the energy storage device is arranged in the pulley block bracket and is respectively connected with the pulley block, the electromagnet, the controller and the motor through wires; the controller is arranged on the upper part of the pulley block bracket, is respectively connected with the motor and the energy storage device and is used for controlling the rotation of the motor and the input and output of electric energy of the energy storage device; the motor is installed assembly pulley support upper portion, motor one end with assembly pulley support upper portion fixed connection, the other end of motor is connected with the reduction gear, the reduction gear is connected with the transfer line, the top fixed connection of transfer line be in the portion of rapping the centre of cross support, drive the rotation of cross support.

2. The comprehensive rapping device of the ash bucket of the electrostatic precipitator for the power plant as recited in claim 1, characterized in that: the elastic connecting piece is a spring.

3. The comprehensive rapping device of the ash bucket of the electrostatic precipitator for the power plant as recited in claim 1, characterized in that: the spherical vibrating hitting ball is characterized in that the inner layer of the spherical vibrating hitting ball is made of spherical ferromagnetic metal, the outer layer is an elastic corrosion-resistant wear-resistant layer, and patterns for increasing friction force are arranged on the surface of the outer layer.

4. The comprehensive rapping device of the ash bucket of the electrostatic precipitator for the power plant as recited in claim 3, characterized in that: the outer layer of the spherical rapping ball is made of rubber.

5. The comprehensive rapping device of the ash bucket of the electrostatic precipitator for the power plant as recited in claim 1, characterized in that: and the pulley block support is also provided with a sound collecting device, and the sound collecting device is connected with the controller.

6. The comprehensive rapping device of the ash bucket of the electrostatic precipitator for the power plant as recited in claim 1, characterized in that: and the head end and the tail end of the spiral double guide rail are both provided with a buffer device.

7. The comprehensive rapping device of the ash bucket of the electrostatic precipitator for the power plant as recited in claim 1, characterized in that: the head end of the spiral double guide rail is connected with a power supply to supply power to the spiral double guide rail and the movable vibrator.

8. The comprehensive rapping device of the ash bucket of the electrostatic precipitator for the power plant as recited in claim 1, characterized in that: the pulleys of the pulley block are made of conductive materials; the ash bucket is made of paramagnetic materials; the spiral double guide rails are made of ferromagnetic conductive material.