CN111842296A - Pipe hole cleaning device for circular swing type sewage treatment equipment - Google Patents

Abstract

The invention discloses a pipe hole cleaning device for a circumferential swing type sewage treatment device, wherein the pipe hole cleaning device comprises: the device comprises a box body shell, a quick-release pore plate, a pore plate connecting piece, a pore plate cleaning device, a swinging spray device, a spray head and a rack; the section of the box body shell positioned at the bottom is square, wherein the upper surface is provided with a quick-release pore plate, the quick-release pore plate is hermetically connected with the box body shell through a pore plate connecting piece, and the quick-release pore plate is horizontally inserted into a sliding groove at the edge of the box body shell and locked through the pore plate connecting piece; the quick detach orifice plate surface is equipped with a large amount of through-holes, and quick detach orifice plate both sides are equipped with the rack, and quick detach orifice plate surface still is equipped with the orifice plate and washs, and the orifice plate washs through the rack along quick detach orifice plate surface slip, washs quick detach orifice plate surface through-hole. The pipe hole cleaning device for the circumferential swing type sewage treatment equipment, disclosed by the invention, is novel and reasonable in structure, high in working efficiency and wide in equipment application range.

Description

Pipe hole cleaning device for circular swing type sewage treatment equipment

Technical Field

The invention belongs to the technical field of sewage treatment, and particularly relates to a pipe hole cleaning device for a circular swing type sewage treatment device.

Background

Under the prior art condition, the technology of the processing equipment in the field is not developed and matured, and the cleaning of pipe holes, a box body shell, a quick-release pore plate, a pore plate connecting piece, a pore plate cleaning, swinging spraying, a spray header and a rack mechanism are mainly embodied in the prior art. Due to lack of or immaturity of the mechanism, the defects of old process, high treatment cost, low working efficiency, long process flow, complex control, large occupied area and the like are caused.

Disclosure of Invention

In order to solve the above technical problem, the present invention provides a pipe hole cleaning device for a circular pendulum sewage treatment apparatus, comprising: the device comprises a rotating shaft 1, a swing arm 2, a swing shaft 3, a water drainage through hole 4, a pressure release valve 5, a pipe hole cleaning 6 and a box body 7; the swing shaft 3 positioned in the middle is horizontally placed and penetrates through the box body 7, two ends of the swing shaft are respectively provided with a swing arm 2, and the swing shaft 3 is rotatably connected with the swing arms 2; the swing arm 2 is connected with a driving device through the rotating shaft 1, the driving device drives the whole box body 7 through the rotating shaft 1, the swing arm 2 and the swing shaft 3 to do low-speed circumferential swing on a vertical plane, and the box body 7 is always kept horizontal during swing; a plurality of water drainage through holes 4 are communicated with the surface of the box body 7 and used for draining water; wherein, the water to be treated enters from one end of the box body 7 and is discharged from a large number of water discharge through holes 4 on the surface of the box body 7; an annular heating pipe is arranged in the box body 7 to create an environment suitable for the growth of microorganisms; a plurality of injection heads are arranged in the box body 7 and are communicated with an external air pump, and the injection heads generate dissolved oxygen in the box body 7 to promote microorganisms to degrade organic matters in the water body; a buffer disc is arranged in the box body 7 to promote the growth of microorganisms; the surface of the drainage through hole 4 is provided with a pipe hole cleaning 6 for cleaning the drainage through hole 4; and a pressure relief valve 5 is communicated with one end of the box body 7 and used for protecting the pressure safety of the box body 7.

Further, the pipe hole cleaning 6 includes: the device comprises a box body shell 61, a quick-release pore plate 62, a pore plate connecting piece 63, a pore plate cleaning 64, a swinging spray 65, a spray header 66 and a rack 67; the section of a box body shell 61 positioned at the bottom is square, wherein the upper surface of the box body shell is provided with a quick-release pore plate 62, the quick-release pore plate 62 is hermetically connected with the box body shell 61 through a pore plate connecting piece 63, and the quick-release pore plate 62 is horizontally inserted into a sliding groove at the edge of the box body shell 61 and locked through the pore plate connecting piece 63; the surface of the quick-release pore plate 62 is provided with a large number of through holes, racks 67 are arranged on two sides of the quick-release pore plate 62, pore plate cleaning 64 is further arranged on the surface of the quick-release pore plate 62, and the pore plate cleaning 64 slides along the surface of the quick-release pore plate 62 through the racks 67 to clean the through holes on the surface of the quick-release pore plate 62; the upper part of the box body shell 61 is provided with a swinging spray 65, the swinging spray 65 is controlled by a machine to swing, and the lower part of the swinging spray 65 is communicated with a spray header 66.

Further, the oscillating spray 65 includes: the system comprises an adjustable support 651, a two-dimensional oscillating rod 652, a water receiving tank 653, an oscillating motor 654, a horizontal oscillating tractor 655, a truss 656, a vertical oscillating tractor 657 and a water sprayer 658; the adjustable brackets 651 which are positioned at the lower part, the number of which is 4, are fixed on the stand bar of the inverted U-shaped frame, and the adjustable brackets 651 can be deeply lengthened or contracted due to the spiral structure of the adjustable brackets; the lower part of the inverted U-shaped frame beam is provided with a vertical pendulum traction 657, one end of the vertical pendulum traction 657 is connected with a traveling frame 656 through a steel cable, the other end of the vertical pendulum traction 657 is connected with a swing motor 654, and the swing motor 654 drives a water sprayer 658 to move up and down through the steel cable traction traveling frame 656; the number of the water sprayers 658 is at least 1, the water sprayers 658 are arranged on the hollow traveling frame 656, one path of the water inlet end of the water sprayer 658 is communicated with an external water source, and the other path of the water sprayer is communicated with the bottom of the water receiving tank 653; horizontal pendulum tractors 655 are respectively arranged on the front side and the rear side of the travelling frame 656, one end of each horizontal pendulum tractor 655 is connected with the travelling frame 656 through a steel cable, the other end of each horizontal pendulum tractor 655 is connected with the swing motor 654, and the swing motor 654 drives the water sprayer 658 to move left and right through the steel cable of the horizontal pendulum tractors 655 and the travelling frame 656; a water receiving tank 653 is arranged at the lower part of the water sprayer 658, a washing object is arranged between the water sprayer 658 and the water receiving tank 653, the water sprayer 658 sprays the washing object, the water receiving tank 653 is slightly inclined and receives washing water, and the inclined design promotes cement separation and enables water to be recycled; at least one two-dimensional swing rod 652 is arranged at the lower part of the water receiving tank 653, and the two-dimensional swing rod promotes horizontal swing of the water receiving tank 653 to promote cement separation.

Further, the two-dimensional swing link 652 includes: a swinging ball head 6521, a swinging driver 6522, a swinging spring 6523, an impact hammer 6524, a bearing 6525, a water tank rocker 6526, a balance 6527, a cover rail 6528, an elastic rod 6529 and a hammer protector 6520; the water tank rocker 6526 positioned in the center of the vertical shaft stands vertically, the upper part of the water tank rocker 6526 is fixedly connected with the bottom of the tank body, a plurality of impact hammers 6524 are uniformly distributed around the water tank rocker 6526, the outer surfaces of the impact hammers 6524 are wrapped with rubber, the outer side of the top end of each impact hammer 6524 is connected with the cover rail 6528 through a hammer protector 6520, and the hammer protector 6520 prevents the impact hammers 6524 from violently impacting the cover rail 6528; the inner side of the top end of the striking hammer 6524 is connected with the water tank rocker 6526 through a spring, and the spring urges the striking hammer 6524 to return; a cover rail 6528 surrounds the exterior of the plurality of impact hammers 6524; the bottom of the impact hammer 6524 is elastically connected with the base; a balance wheel 6527 is connected to the periphery of the cover rail 6528 in a sliding manner, the mass of the balance wheel 6527 is large and is 9 times of that of the cover rail 6528, the diameter of the balance wheel 6527 is 3 times of that of the cover rail 6528, the balance wheel 6527 realizes relative sliding with the cover rail 6528 through a bearing 6525 and swings circularly and widely around the cover rail 6528; the lower part of the balance wheel 6527 is fixedly connected with a swinging spring 6523 through a plurality of elastic rods 6529, the diameter of the swinging spring 6523 is large enough, the swinging spring 6523 is rotationally connected with a lower swinging ball head 6521, and meanwhile, the swinging spring 6523 is in driving connection with a swinging drive 6522 at one side; the swinging driver 6522 drives the balance 6527 to rotate along the periphery of the cover rail 6528 through the swinging spring 6523 and the elastic rod 6529, the balance 6527 rotates to generate non-symmetrical swinging, and the balance 6527 drives the impact hammer 6524 to impact the water tank rocker 6526 through the cover rail 6528, so that the upper part and the horizontal plane of the tank body swing in multiple directions.

Further, the hammer guard 6520 includes: damper 65201, buffer rod 65202, compression spring 65203, ejector rod 65204, large mass solid wheel 65205, push rod 65206, moving plate 65207, gravity column lock 65208; the right side of the ejector rod 65204 positioned in the middle is connected with an impacted object, the first path on the left side of the ejector rod 65204 is rotationally connected with the large-mass solid wheel 65205 through multi-stage gear change, wherein the large-mass solid wheel 65205 has larger mass, and when the ejector rod 65204 causes the large-mass solid wheel 65205 to rotate, the large-mass solid wheel absorbs large kinetic energy; the second way ejector rod 65204 is meshed and connected with the rack on the side of the moving plate 65207 through a gear; the moving plate 65207 slides left and right, when the ejector rod 65204 is impacted by an impact object on the right side, the gear is driven to rotate, and the moving plate 65207 is driven to move to the left side through the meshing action of the racks on the side of the moving plate 65207; a compression spring 65203 and a buffer rod 65202 are connected with one side of the moving plate 65207, wherein the other end of the compression spring 65203 is fixedly connected with the base, and when the moving plate 65207 moves towards the left side, the compression spring 65203 is urged to be elastically compressed; a damper 65201 is connected to the lower portion of the buffer rod 65202, and when the moving plate 65207 moves to the left side, the damper 65201 is urged to start damping operation by the buffer rod 65202; a push rod 65206 is arranged on one side of the large-mass solid wheel 65205, a friction plate is arranged at the right end part of the push rod 65206, the friction plate is in controlled contact with the large-mass solid wheel 65205, and a spring is sleeved at the left part of the push rod 65206 to realize elastic contact between the friction plate and the large-mass solid wheel 65205; the lower end part of the gravity column lock 65208 is provided with a toothed nail, the inside of the gravity column lock 65208 is provided with a pushing spring, and the toothed nail of the gravity column lock 65208 is in controlled contact with the side rack of the moving plate 65207.

Further, the shower head 66 includes: umbrella cover 661, umbrella regulator 662, adjustable nozzle 663, derotator 664, annular homogenizer 665, honeycomb net 666, sandwich channel 667, rotating blade 668; a honeycomb net 666 mesh structure inside the shower head 66, a portion of the water entering from the left side thereof, passing through the honeycomb net 666, which serves to cushion the water flow; the other part of water flows through interlayer channels 667 on the periphery of the honeycomb net 666, and the two paths of water flow are sprayed out through the adjustable nozzles 663; an annular homogenizer 665 is arranged at the left side of the honeycomb net 666 for buffering water flow; the right side of the annular homogenizer 665 is provided with a rotating blade 668 to promote the water body to flow at a high speed; the upper part of the rotating blade 668 is provided with an adjustable nozzle 663 which is used for adjusting the flow and the flow velocity of the sprayed water body; a reverse rotator 664 is arranged between the rotating blade 668 and the adjustable nozzle 663, and the reverse rotator 664 rotates in the opposite direction of the water body to promote the water body to be gasified; the upper part of the annular homogenizer 665 is connected with an air pipe; an umbrella cover 661 is disposed on the upper portion of the adjustable nozzle 663, and the umbrella cover 661 can adjust the distance between the umbrella cover 661 and the adjustable nozzle 663 through an umbrella adjuster 662 for changing the water flow.

Further, the gravity cylinder lock 65208 comprises: a conical cover 652081, a toggle rod 652082, a passive fan 652083, a counterweight weight 652084, a diving platform 652085, an air outlet 652086 and a gravity column 652087; the counterweight block 652084 on the upper part is made of metal material, the counterweight block 652084 is fixedly connected with the gravity column 652087 on the lower part, the waist of the gravity column 652087 is provided with a diving platform 652085, a cylindrical bulge of the diving platform 652085 and a diving platform 652085 are shifted by a shifting rod 652082, and the counterweight block 652084 is driven to jump upwards through the gravity column 652087; the rack is horizontally arranged at the lower part of the gravity column 652087; the periphery of the gravity column 652087 is provided with a cone cover 652081 and an inverted cone, the upper end and the lower end of the gravity column 652087 are communicated, the bottom end of the gravity column is provided with an air inlet duct and a large caliber and is communicated with a bottom fan, an air outlet 652086 at the top of the gravity column is easy to shrink into a small caliber and directly faces to a driven fan 652083 in a mouse cage, the mouse cage iron wire net is woven into a cylinder and is horizontally placed, four horizontally placed toggle rods 652082 are equidistantly distributed at the circumference, a driven fan 652083 is arranged on the central shaft of the mouse cage, and the driven fan 652083 drives the toggle rods 652082 to.

Further, the striking hammer 6524 includes: swing rod 65241, telescopic rod spring 65242, rod length adjusting 65243, telescopic upright rod 65244, buffer plate 65245, elastic L-shaped support 65246, elastic spring 65247 and impact hemisphere 65248; the impact hemisphere 65248 positioned at the top is hemispherical, made of metal, has certain mass, and is coated with rubber on the surface, the lower part of the impact hemisphere 65248 is fixedly connected with four elastic springs 65247 which are symmetrically distributed, the elastic springs 65247 are connected with a buffer plate 65245 through an elastic L-shaped support 65246, wherein the elastic L-shaped support 65246 is made of a high-elasticity steel plate and is L-shaped, and two end points are respectively connected with the buffer plate 65245 and the elastic springs 65247; the lower part of the buffer plate 65245 is fixedly connected with a swinging rod 65241 and two telescopic vertical rods 65244 which form a triangle layout, wherein the waist of the telescopic vertical rod 65244 is provided with a telescopic rod spring 65242 and a rod length adjusting 65243, and the length of the telescopic vertical rod 65244 is adjusted by the rod length adjusting 65243.

Further, the working method of the device comprises the following steps:

step 1: in the working process of the pipe hole cleaning device used in the circular swing type sewage treatment equipment, the driving device drives the box body 7 to integrally do low-speed circular swing through the rotating shaft 1, the swing arm 2 and the swing shaft 3, and the box body 7 is always kept horizontal during the swing; cleaning 6 pipe holes on the surface of the drainage through hole 4 to clean the drainage through hole 4; the pressure release valve 5 is arranged at one end of the box body 7 and used for protecting the pressure inside the box body 7 to be safe; water to be treated enters from one end of the box body 7 and is discharged from a large number of water discharge through holes 4 on the surface of the box body 7, and an annular heating pipe is arranged inside the box body 7 to create an environment temperature suitable for microorganisms; a plurality of injection heads are arranged in the box body 7 and generate dissolved oxygen to promote microorganisms to degrade organic matters in the water body, meanwhile, a large number of microorganisms are attached to the surface of a buffer disc in the box body 7, and when the water body flows through the buffer disc, the organic matters are further degraded;

step 2: in the operation of cleaning 6 the pipe hole, the swinging spray 65 above the box body shell 61 realizes the large-range swinging and spraying operation through mechanical control; the orifice plate cleaning 64 slides along the surface of the quick-release orifice plate 62 through the rack 67, so that the through hole on the surface of the quick-release orifice plate 62 is cleaned; the quick-release pore plate 62 is horizontally inserted into a sliding groove at the edge of the box body shell 61 and locked through a pore plate connecting piece 63;

and 3, step 3: in the operation of the swinging spray 65, the swinging motor 654 pulls the traveling frame 656 to drive the water sprayer 658 to move up and down through the steel cable of the vertical swinging traction 657; the swinging motor 654 pulls the steel cable of 655 through the horizontal pendulum, pulls the traveling frame 656 to drive the water sprayer 658 to move left and right; the water sprayer 658 sprays the washing object, the water receiving tank 653 is slightly inclined to collect water and promote mud-water separation, and is communicated with the water sprayer 658 through a hose to realize water recycling; the two-dimensional swing rod 652 drives the water receiving tank 653 to swing horizontally, so that mud-water separation is promoted;

and 4, step 4: during the operation of the two-dimensional oscillating rod 652, the oscillating drive 6522 drives the balance 6527 to rotate in a large range along the periphery of the cover rail 6528 through the oscillating spring 6523 and the elastic rod 6529, the balance 6527 rotates to generate non-symmetrical oscillation, the balance 6527 drives the impact hammer 6524 to impact the water tank rocker 6526 through the cover rail 6528, and the upper part and the tank body are enabled to oscillate in multiple directions on the horizontal plane;

and 5, step 5: in the hammer protection 6520 operation, when the ejector pin 65204 is struck by a striker on the left side, the first ejector pin 65204 causes the large-mass solid wheel 65205 to rotate through multi-stage gear change and absorbs kinetic energy generated by the striking; meanwhile, a friction plate at the right end of the push rod 65206 is in controlled contact with the high-mass solid wheel 65205, so that the rotating speed of the high-mass solid wheel 65205 is reduced; the second way ejector rod 65204 drives the moving plate 65207 to move right through a spring, and the moving plate 65207 is slowed down to move right under the combined action of the damper 65201, the buffer rod 65202 and the compression spring 65203; the gravity column lock 65208 is in controlled contact with the rack on the side of the moving plate 65207, and locking is implemented when an emergency occurs;

and 6, step 6: during the operation of the spray head 66, one part of water enters from the left side of the honeycomb net 666, the other part of water flows through the interlayer channel 667 and is homogenized through the honeycomb net 666 and the annular homogenizer 665, meanwhile, the upper air pipe carries gas to enter the cavity of the rotating blade 668, the rotating blade 668 positively rotates clockwise at a high speed, and the water is enabled to be sprayed out from the adjustable nozzle 663; during the period, the derotator 664 rotates anticlockwise and reversely to promote the water body to be gasified;

and 7, step 7: when the gravity column lock 65208 works, the fan is in a long-term working state, wind enters a cone from the bottom of the conical cover 652081, the wind speed is increased, the wind is ejected out from the air outlet 652086 at a high speed, and the wind directly blows strong wind to the driven fan 652083, so that the driven fan 652083 drives the stirring rod 652082 to continuously stir the diving platform 652085 upwards, the diving platform 652085 is continuously stirred by the stirring rod 652082, and the gravity column 652087 drives the counterweight weight 652084 to move upwards and be in a high-position state for a long time; when the horizontal rack at the lower part needs to be locked, the fan is turned off to stop air supply, the diving platform 652085 is not acted by toggle force due to the influence of self gravity, the gravity column 652087 falls down, and the rack is locked;

and 8, step 8: in the working process of the impact hammer 6524, the impact hemisphere 65248 is freely lifted on the premise of not influencing the impact force by the aid of the swinging rod 65241 and the two telescopic vertical rods 65244 which are arranged in a delta shape through the upper buffer plate 65245; the four symmetrically distributed elastic springs 65247 and the elastic L-shaped supports 65246 jointly realize uniform and free lifting of the impacting hemisphere 65248.

The invention has the advantages that: the structure is reasonable and compact, the use effect is good, the process is novel, and the application range of the equipment is wide.

Drawings

FIG. 1 is a view of a pipe hole cleaning device used in a circular pendulum sewage treatment plant according to the present invention.

Fig. 2 is a view of a pipe hole cleaning 6 according to the present invention.

Fig. 3 is a diagram of a rocking spray 65 of the present invention.

Fig. 4 is a two-dimensional rocker 652 diagram of the present invention.

Fig. 5 is a view of the hammer guard 6520 of the present invention.

Fig. 6 is a diagram of the showerhead 66 of the present invention.

Figure 7 is a view of the gravity column latch 65208 of the present invention.

Fig. 8 is a drawing of impact hammer 6524 in the present invention.

Detailed Description

Examples

The pipe hole cleaning device for the circular pendulum type sewage treatment equipment provided by the invention is further explained by combining the attached drawings and examples.

FIG. 1 is a view of a pipe hole cleaning device used in a circular pendulum sewage treatment plant according to the present invention. The method comprises the following steps: the device comprises a rotating shaft 1, a swing arm 2, a swing shaft 3, a water drainage through hole 4, a pressure release valve 5, a pipe hole cleaning 6 and a box body 7; the swing shaft 3 positioned in the middle is horizontally placed and penetrates through the box body 7, two ends of the swing shaft are respectively provided with a swing arm 2, and the swing shaft 3 is rotatably connected with the swing arms 2; the swing arm 2 is connected with a driving device through the rotating shaft 1, the driving device drives the whole box body 7 through the rotating shaft 1, the swing arm 2 and the swing shaft 3 to do low-speed circumferential swing on a vertical plane, and the box body 7 is always kept horizontal during swing; a plurality of water drainage through holes 4 are communicated with the surface of the box body 7 and used for draining water; wherein, the water to be treated enters from one end of the box body 7 and is discharged from a large number of water discharge through holes 4 on the surface of the box body 7; an annular heating pipe is arranged in the box body 7 to create an environment suitable for the growth of microorganisms; a plurality of injection heads are arranged in the box body 7 and are communicated with an external air pump, and the injection heads generate dissolved oxygen in the box body 7 to promote microorganisms to degrade organic matters in the water body; a buffer disc is arranged in the box body 7 to promote the growth of microorganisms; the surface of the drainage through hole 4 is provided with a pipe hole cleaning 6 for cleaning the drainage through hole 4; and a pressure relief valve 5 is communicated with one end of the box body 7 and used for protecting the pressure safety of the box body 7.

Fig. 2 is a view of a pipe hole cleaning 6 according to the present invention. The pipe hole cleaning 6 includes: the device comprises a box body shell 61, a quick-release pore plate 62, a pore plate connecting piece 63, a pore plate cleaning 64, a swinging spray 65, a spray header 66 and a rack 67; the section of a box body shell 61 positioned at the bottom is square, wherein the upper surface of the box body shell is provided with a quick-release pore plate 62, the quick-release pore plate 62 is hermetically connected with the box body shell 61 through a pore plate connecting piece 63, and the quick-release pore plate 62 is horizontally inserted into a sliding groove at the edge of the box body shell 61 and locked through the pore plate connecting piece 63; the surface of the quick-release pore plate 62 is provided with a large number of through holes, racks 67 are arranged on two sides of the quick-release pore plate 62, pore plate cleaning 64 is further arranged on the surface of the quick-release pore plate 62, and the pore plate cleaning 64 slides along the surface of the quick-release pore plate 62 through the racks 67 to clean the through holes on the surface of the quick-release pore plate 62; the upper part of the box body shell 61 is provided with a swinging spray 65, the swinging spray 65 is controlled by a machine to swing, and the lower part of the swinging spray 65 is communicated with a spray header 66.

Fig. 3 is a diagram of a rocking spray 65 of the present invention. The rocking spray 65 comprises: the system comprises an adjustable support 651, a two-dimensional oscillating rod 652, a water receiving tank 653, an oscillating motor 654, a horizontal oscillating tractor 655, a truss 656, a vertical oscillating tractor 657 and a water sprayer 658; the adjustable brackets 651 which are positioned at the lower part, the number of which is 4, are fixed on the stand bar of the inverted U-shaped frame, and the adjustable brackets 651 can be deeply lengthened or contracted due to the spiral structure of the adjustable brackets; the lower part of the inverted U-shaped frame beam is provided with a vertical pendulum traction 657, one end of the vertical pendulum traction 657 is connected with a traveling frame 656 through a steel cable, the other end of the vertical pendulum traction 657 is connected with a swing motor 654, and the swing motor 654 drives a water sprayer 658 to move up and down through the steel cable traction traveling frame 656; the number of the water sprayers 658 is at least 1, the water sprayers 658 are arranged on the hollow traveling frame 656, one path of the water inlet end of the water sprayer 658 is communicated with an external water source, and the other path of the water sprayer is communicated with the bottom of the water receiving tank 653; horizontal pendulum tractors 655 are respectively arranged on the front side and the rear side of the travelling frame 656, one end of each horizontal pendulum tractor 655 is connected with the travelling frame 656 through a steel cable, the other end of each horizontal pendulum tractor 655 is connected with the swing motor 654, and the swing motor 654 drives the water sprayer 658 to move left and right through the steel cable of the horizontal pendulum tractors 655 and the travelling frame 656; a water receiving tank 653 is arranged at the lower part of the water sprayer 658, a washing object is arranged between the water sprayer 658 and the water receiving tank 653, the water sprayer 658 sprays the washing object, the water receiving tank 653 is slightly inclined and receives washing water, and the inclined design promotes cement separation and enables water to be recycled; at least one two-dimensional swing rod 652 is arranged at the lower part of the water receiving tank 653, and the two-dimensional swing rod promotes horizontal swing of the water receiving tank 653 to promote cement separation.

Fig. 4 is a two-dimensional rocker 652 diagram of the present invention. The two-dimensional swing link 652 includes: a swinging ball head 6521, a swinging driver 6522, a swinging spring 6523, an impact hammer 6524, a bearing 6525, a water tank rocker 6526, a balance 6527, a cover rail 6528, an elastic rod 6529 and a hammer protector 6520; the water tank rocker 6526 positioned in the center of the vertical shaft stands vertically, the upper part of the water tank rocker 6526 is fixedly connected with the bottom of the tank body, a plurality of impact hammers 6524 are uniformly distributed around the water tank rocker 6526, the outer surfaces of the impact hammers 6524 are wrapped with rubber, the outer side of the top end of each impact hammer 6524 is connected with the cover rail 6528 through a hammer protector 6520, and the hammer protector 6520 prevents the impact hammers 6524 from violently impacting the cover rail 6528; the inner side of the top end of the striking hammer 6524 is connected with the water tank rocker 6526 through a spring, and the spring urges the striking hammer 6524 to return; a cover rail 6528 surrounds the exterior of the plurality of impact hammers 6524; the bottom of the impact hammer 6524 is elastically connected with the base; a balance wheel 6527 is connected to the periphery of the cover rail 6528 in a sliding manner, the mass of the balance wheel 6527 is large and is 9 times of that of the cover rail 6528, the diameter of the balance wheel 6527 is 3 times of that of the cover rail 6528, the balance wheel 6527 realizes relative sliding with the cover rail 6528 through a bearing 6525 and swings circularly and widely around the cover rail 6528; the lower part of the balance wheel 6527 is fixedly connected with a swinging spring 6523 through a plurality of elastic rods 6529, the diameter of the swinging spring 6523 is large enough, the swinging spring 6523 is rotationally connected with a lower swinging ball head 6521, and meanwhile, the swinging spring 6523 is in driving connection with a swinging drive 6522 at one side; the swinging driver 6522 drives the balance 6527 to rotate along the periphery of the cover rail 6528 through the swinging spring 6523 and the elastic rod 6529, the balance 6527 rotates to generate non-symmetrical swinging, and the balance 6527 drives the impact hammer 6524 to impact the water tank rocker 6526 through the cover rail 6528, so that the upper part and the horizontal plane of the tank body swing in multiple directions.

Fig. 5 is a view of the hammer guard 6520 of the present invention. The hammer guard 6520 includes: damper 65201, buffer rod 65202, compression spring 65203, ejector rod 65204, large mass solid wheel 65205, push rod 65206, moving plate 65207, gravity column lock 65208; the right side of the ejector rod 65204 positioned in the middle is connected with an impacted object, the first path on the left side of the ejector rod 65204 is rotationally connected with the large-mass solid wheel 65205 through multi-stage gear change, wherein the large-mass solid wheel 65205 has larger mass, and when the ejector rod 65204 causes the large-mass solid wheel 65205 to rotate, the large-mass solid wheel absorbs large kinetic energy; the second way ejector rod 65204 is meshed and connected with the rack on the side of the moving plate 65207 through a gear; the moving plate 65207 slides left and right, when the ejector rod 65204 is impacted by an impact object on the right side, the gear is driven to rotate, and the moving plate 65207 is driven to move to the left side through the meshing action of the racks on the side of the moving plate 65207; a compression spring 65203 and a buffer rod 65202 are connected with one side of the moving plate 65207, wherein the other end of the compression spring 65203 is fixedly connected with the base, and when the moving plate 65207 moves towards the left side, the compression spring 65203 is urged to be elastically compressed; a damper 65201 is connected to the lower portion of the buffer rod 65202, and when the moving plate 65207 moves to the left side, the damper 65201 is urged to start damping operation by the buffer rod 65202; a push rod 65206 is arranged on one side of the large-mass solid wheel 65205, a friction plate is arranged at the right end part of the push rod 65206, the friction plate is in controlled contact with the large-mass solid wheel 65205, and a spring is sleeved at the left part of the push rod 65206 to realize elastic contact between the friction plate and the large-mass solid wheel 65205; the lower end part of the gravity column lock 65208 is provided with a toothed nail, the inside of the gravity column lock 65208 is provided with a pushing spring, and the toothed nail of the gravity column lock 65208 is in controlled contact with the side rack of the moving plate 65207.

Fig. 6 is a diagram of the showerhead 66 of the present invention. The shower head 66 includes: umbrella cover 661, umbrella regulator 662, adjustable nozzle 663, derotator 664, annular homogenizer 665, honeycomb net 666, sandwich channel 667, rotating blade 668; a honeycomb net 666 mesh structure inside the shower head 66, a portion of the water entering from the left side thereof, passing through the honeycomb net 666, which serves to cushion the water flow; the other part of water flows through interlayer channels 667 on the periphery of the honeycomb net 666, and the two paths of water flow are sprayed out through the adjustable nozzles 663; an annular homogenizer 665 is arranged at the left side of the honeycomb net 666 for buffering water flow; the right side of the annular homogenizer 665 is provided with a rotating blade 668 to promote the water body to flow at a high speed; the upper part of the rotating blade 668 is provided with an adjustable nozzle 663 which is used for adjusting the flow and the flow velocity of the sprayed water body; a reverse rotator 664 is arranged between the rotating blade 668 and the adjustable nozzle 663, and the reverse rotator 664 rotates in the opposite direction of the water body to promote the water body to be gasified; the upper part of the annular homogenizer 665 is connected with an air pipe; an umbrella cover 661 is disposed on the upper portion of the adjustable nozzle 663, and the umbrella cover 661 can adjust the distance between the umbrella cover 661 and the adjustable nozzle 663 through an umbrella adjuster 662 for changing the water flow.

Figure 7 is a view of the gravity column latch 65208 of the present invention. The gravity cylinder lock 65208 comprises: a conical cover 652081, a toggle rod 652082, a passive fan 652083, a counterweight weight 652084, a diving platform 652085, an air outlet 652086 and a gravity column 652087; the counterweight block 652084 on the upper part is made of metal material, the counterweight block 652084 is fixedly connected with the gravity column 652087 on the lower part, the waist of the gravity column 652087 is provided with a diving platform 652085, a cylindrical bulge of the diving platform 652085 and a diving platform 652085 are shifted by a shifting rod 652082, and the counterweight block 652084 is driven to jump upwards through the gravity column 652087; the rack is horizontally arranged at the lower part of the gravity column 652087; the periphery of the gravity column 652087 is provided with a cone cover 652081 and an inverted cone, the upper end and the lower end of the gravity column 652087 are communicated, the bottom end of the gravity column is provided with an air inlet duct and a large caliber and is communicated with a bottom fan, an air outlet 652086 at the top of the gravity column is easy to shrink into a small caliber and directly faces to a driven fan 652083 in a mouse cage, the mouse cage iron wire net is woven into a cylinder and is horizontally placed, four horizontally placed toggle rods 652082 are equidistantly distributed at the circumference, a driven fan 652083 is arranged on the central shaft of the mouse cage, and the driven fan 652083 drives the toggle rods 652082 to.

Fig. 8 is a drawing of impact hammer 6524 in the present invention. The striking hammer 6524 includes: swing rod 65241, telescopic rod spring 65242, rod length adjusting 65243, telescopic upright rod 65244, buffer plate 65245, elastic L-shaped support 65246, elastic spring 65247 and impact hemisphere 65248; the impact hemisphere 65248 positioned at the top is hemispherical, made of metal, has certain mass, and is coated with rubber on the surface, the lower part of the impact hemisphere 65248 is fixedly connected with four elastic springs 65247 which are symmetrically distributed, the elastic springs 65247 are connected with a buffer plate 65245 through an elastic L-shaped support 65246, wherein the elastic L-shaped support 65246 is made of a high-elasticity steel plate and is L-shaped, and two end points are respectively connected with the buffer plate 65245 and the elastic springs 65247; the lower part of the buffer plate 65245 is fixedly connected with a swinging rod 65241 and two telescopic vertical rods 65244 which form a triangle layout, wherein the waist of the telescopic vertical rod 65244 is provided with a telescopic rod spring 65242 and a rod length adjusting 65243, and the length of the telescopic vertical rod 65244 is adjusted by the rod length adjusting 65243.

Claims (9)

1. A pore cleaning device for a circular pendulum sewage treatment device comprises: the device comprises a rotating shaft (1), a swing arm (2), a swing shaft (3), a water drainage through hole (4), a pressure release valve (5), a pipe hole cleaning device (6) and a box body (7);

the box is characterized in that a swing shaft (3) positioned in the middle is horizontally placed and penetrates through a box body (7), two swing arms (2) are respectively arranged at two ends of the swing shaft, and the swing shaft (3) is rotatably connected with the swing arms (2); the swinging arm (2) is connected with a driving device through the rotating shaft (1), the driving device drives the whole box body (7) through the rotating shaft (1), the swinging arm (2) and the swinging shaft (3) to do low-speed circumferential swinging on a vertical plane, and the box body (7) is always kept horizontal during swinging; a plurality of water drainage through holes (4) are communicated with the surface of the box body (7) and used for discharging water; wherein, water to be treated enters from one end of the box body (7) and is discharged from a large number of water discharge through holes (4) on the surface of the box body (7); an annular heating pipe is arranged in the box body (7) to create an environment suitable for the growth of microorganisms; a plurality of injection heads are arranged in the box body (7), the injection heads are communicated with an external air pump, and the injection heads generate dissolved oxygen in the box body (7) to promote microorganisms to degrade organic matters in the water body; a buffer disc is arranged in the box body (7) to promote the growth of microorganisms; the surface of the drainage through hole (4) is provided with a pipe hole cleaning device (6) for cleaning the drainage through hole (4); one end of the box body (7) is communicated with a pressure relief valve (5) for protecting the pressure safety of the box body (7).

2. The pipe hole cleaning device for the circular pendulum type sewage treatment equipment according to claim 1, wherein the pipe hole cleaning device (6) comprises: the device comprises a box body shell (61), a quick-release pore plate (62), a pore plate connecting piece (63), a pore plate cleaning piece (64), a swinging spray (65), a spray header (66) and a rack (67);

the section of a box body shell (61) positioned at the bottom is square, wherein the upper surface is provided with a quick-release pore plate (62), the quick-release pore plate (62) is hermetically connected with the box body shell (61) through a pore plate connecting piece (63), and the quick-release pore plate (62) is horizontally inserted into a sliding groove at the edge of the box body shell (61) and is locked through the pore plate connecting piece (63); the surface of the quick-release pore plate (62) is provided with a large number of through holes, racks (67) are arranged on two sides of the quick-release pore plate (62), pore plate cleaning (64) is further arranged on the surface of the quick-release pore plate (62), and the pore plate cleaning (64) slides along the surface of the quick-release pore plate (62) through the racks (67) to clean the through holes on the surface of the quick-release pore plate (62); the swinging spray (65) is arranged above the box body shell (61), the swinging spray (65) is controlled by a machine to swing, and the lower part of the swinging spray (65) is communicated with a spray header (66).

3. The pipe hole cleaning device for the circular pendulum type sewage treatment apparatus according to claim 2, wherein the oscillating spray (65) comprises: the device comprises an adjustable support (651), a two-dimensional swing rod (652), a water receiving tank (653), a swing motor (654), a horizontal swing tractor (655), a traveling frame (656), a vertical swing tractor (657) and a water sprayer (658);

the adjustable brackets (651) which are arranged at the lower part and are 4 in number are fixed on the stand bar of the inverted U-shaped frame, and the adjustable brackets (651) have a spiral structure and can be lengthened or contracted deeply; the lower part of the inverted U-shaped frame beam is provided with a vertical pendulum traction device (657), one end of the vertical pendulum traction device is connected with a traveling frame (656) through a steel cable, the other end of the vertical pendulum traction device is connected with a swing motor (654), and the swing motor (654) drives a water sprayer (658) to move up and down through the steel cable traction traveling frame (656); the number of the nozzles is at least 1, the water sprayers (658) are arranged downwards, the water sprayers (658) are erected on a hollowed-out truss (656), one path of the water inlet end of each water sprayer (658) is communicated with an external water source, and the other path of the water inlet end of each water sprayer is communicated with the bottom of a water receiving tank (653); horizontal pendulum tractors (655) are respectively arranged on the front side and the rear side of the travelling frame (656), the horizontal pendulum tractors (655) are connected with the travelling frame (656) through one end of a steel cable, the other end of the steel cable is connected with a swing motor (654), and the swing motor (654) drives a water sprayer (658) to move left and right through the steel cable of the horizontal pendulum tractors (655) and the travelling frame (656); a water receiving tank (653) is arranged at the lower part of the water sprayer (658), a washing object is arranged between the water sprayer (658) and the water receiving tank (653), the water sprayer (658) sprays the washing object, the water receiving tank (653) is in a slightly inclined design and receives washing water, and the inclined design promotes cement separation and enables water to be recycled; at least one two-dimensional swing rod (652) is arranged at the lower part of the water receiving tank (653), and the two-dimensional swing rod promotes the horizontal swing of the water receiving tank (653) to promote the separation of cement.

4. The pipe hole cleaning device for the circular pendulum type sewage treatment equipment as set forth in claim 3, wherein said two-dimensional pendulum rod (652) comprises: the device comprises a swinging ball head (6521), a swinging drive (6522), a swinging spring (6523), an impact hammer (6524), a bearing (6525), a water tank rocker (6526), a balance wheel (6527), a cover rail (6528), an elastic rod (6529) and a hammer protector (6520);

a water tank rocker (6526) positioned in the center of the vertical shaft stands vertically, the upper part of the water tank rocker is fixedly connected with the bottom of the box body, a plurality of impact hammers (6524) are uniformly distributed around the water tank rocker (6526), rubber is wrapped on the outer surfaces of the impact hammers (6524), the outer side of the top end of each impact hammer (6524) is connected with the cover rail (6528) through a hammer protector (6520), and the hammer protector (6520) prevents the impact hammer (6524) from violently impacting the cover rail (6528); the inner side of the top end of the striking hammer (6524) is connected with a water tank rocker (6526) through a spring, and the spring urges the striking hammer (6524) to return; a cover rail (6528) surrounds the exterior of the plurality of impact hammers (6524); the bottom of the impact hammer (6524) is elastically connected with the base; the balance wheel (6527) is connected to the periphery of the cover rail (6528) in a sliding mode, the mass of the balance wheel (6527) is large and is 9 times of that of the cover rail (6528), the diameter of the balance wheel (6527) is 3 times of that of the cover rail (6528), the balance wheel (6527) achieves relative sliding with the cover rail (6528) through a bearing (6525), and the balance wheel swings around the cover rail (6528) in a large annular range; the lower part of the balance wheel (6527) is fixedly connected with a swinging spring (6523) through a plurality of elastic rods (6529), the diameter of the swinging spring (6523) is large enough, the swinging spring (6523) is rotationally connected with a swinging ball head (6521) at the lower part, and meanwhile, the swinging spring (6523) is in driving connection with a swinging drive (6522) at one side; the swinging drive (6522) drives the balance wheel (6527) to rotate along the periphery of the cover rail (6528) through the swinging spring (6523) and the elastic rod (6529), the balance wheel (6527) rotates to generate non-opposite swinging, and the balance wheel (6527) drives the impact hammer (6524) to impact the water tank rocker (6526) through the cover rail (6528) to promote the upper part to swing in multiple directions with the horizontal plane of the tank body.

5. The pipe hole cleaning device for the circular pendulum type sewage treatment apparatus according to claim 4, wherein the hammer protector (6520) comprises: the device comprises a damper (65201), a buffer rod (65202), a compression spring (65203), an ejector rod (65204), a large-mass solid wheel (65205), a push rod (65206), a moving plate (65207) and a gravity column lock catch (65208);

the right side of the ejector rod (65204) located in the middle is connected with an impacted object, the first path on the left side of the ejector rod (65204) is rotationally connected with the large-mass solid wheel (65205) through multi-stage gear change, the large-mass solid wheel (65205) is large in mass, and when the ejector rod (65204) causes the ejector rod to rotate, large kinetic energy is absorbed; the second way ejector rod (65204) is meshed and connected with the rack on the side of the moving plate (65207) through a gear; the moving plate (65207) slides left and right, when the ejector rod (65204) is impacted by an impacting object on the right side, the gear is driven to rotate, and the moving plate (65207) is driven to move to the left side through the meshing effect of the side racks of the moving plate (65207); one side of the moving plate (65207) is connected with a compression spring (65203) and a buffer rod (65202), wherein the other end of the compression spring (65203) is fixedly connected with the base, and when the moving plate (65207) moves towards the left side, the compression spring (65203) is urged to be elastically compressed; a damper (65201) is connected to the lower part of the buffer rod (65202), and when the moving plate (65207) moves towards the left side, the damper (65201) is promoted to start damping operation through the buffer rod (65202); a push-stop rod (65206) is arranged on one side of the large-mass solid wheel (65205), a friction plate is arranged at the right end of the push-stop rod (65206), the friction plate is in controlled contact with the large-mass solid wheel (65205), and a spring is sleeved at the left part of the push-stop rod (65206) to realize elastic contact between the friction plate and the large-mass solid wheel (65205); the lower end part of the gravity column lock catch (65208) is provided with a toothed nail, the inside of the gravity column lock catch (65208) is provided with a pushing spring, and the toothed nail of the gravity column lock catch (65208) is in controlled contact with a rack at the side of the moving plate (65207).

6. The pipe hole cleaning device for the circular pendulum type sewage treatment apparatus according to claim 5, wherein the shower head (66) comprises: an umbrella cover (661), an umbrella regulator (662), an adjustable nozzle (663), a derotation device (664), an annular homogenizer (665), a honeycomb mesh (666), a sandwich channel (667), a rotating vane (668);

a honeycomb mesh (666) structure inside the shower head (66), a part of the water entering from the left side thereof passing through the honeycomb mesh (666), which serves for buffering the water flow; the other part of water flows through interlayer channels (667) on the periphery of the honeycomb net (666), and the two paths of water flow are sprayed out through adjustable nozzles (663); an annular homogenizer (665) is arranged at the left side of the honeycomb net (666) and is used for buffering water flow; a rotating blade (668) is arranged on the right side of the annular homogenizer (665) to promote the water body to flow at a high speed; the upper part of the rotating blade (668) is provided with an adjustable nozzle (663) which is used for adjusting the flow and the flow velocity of the sprayed water body; a reverse rotator (664) is arranged between the rotating blade (668) and the adjustable nozzle (663), and the reverse rotator (664) rotates in the opposite direction of the water body to promote the water body to be gasified; the upper part of the annular homogenizer (665) is connected with an air pipe; an umbrella cover (661) is arranged on the upper portion of the adjustable nozzle (663), and the umbrella cover (661) adjusts the distance between the umbrella cover (661) and the adjustable nozzle (663) through an umbrella adjusting device (662) to change water flow.

7. The pipe hole cleaning device for the circular pendulum type sewage treatment equipment as set forth in claim 6, wherein said gravity column lock catch (65208) comprises: the device comprises a cone cover (652081), a toggle rod (652082), a passive fan (652083), a counterweight weight (652084), a diving platform (652085), an air outlet (652086) and a gravity column (652087);

the weight balancing weight (652084) located on the upper portion is made of metal materials, the weight balancing weight (652084) is fixedly connected with the gravity column (652087) on the lower portion, a diving tower (652085) is arranged on the waist portion of the gravity column (652087), a cylindrical bulge of the diving tower (652085) is arranged, the diving tower (652085) is stirred by a stirring rod (652082), and the weight balancing weight (652084) is driven to jump upwards through the gravity column (652087); a rack is horizontally arranged at the lower part of the gravity column (652087); be equipped with cone cover (652081) at gravity post (652087) periphery, the cone of standing upside down, both ends link up from top to bottom, wherein the bottom is the air inlet duct, the heavy-calibre, communicate with bottom fan, air outlet (652086) at top easily contract into the small-bore, directly facing to passive fan (652083) in the squirrel cage, the cylinder is woven into to the squirrel cage wire netting, the level is placed, stirring stick (652082) that four levels of circumference department equidistance distributed were placed, the squirrel cage center pin is equipped with passive fan (652083), passive fan (652083) drive stir stick (652082) and rotate along squirrel cage horizontal axis.

8. The pipe hole cleaning device for the circular pendulum type sewage treatment apparatus as set forth in claim 7, wherein said impact hammer (6524) comprises: a swing rod (65241), a telescopic rod spring (65242), a rod length adjusting (65243), a telescopic upright rod (65244), a buffer plate (65245), an elastic L-shaped support (65246), an elastic spring (65247) and an impact hemisphere (65248);

the impact hemisphere (65248) positioned at the top is hemispheroidal and made of metal, has certain mass, and is coated with rubber on the surface, the lower part of the impact hemisphere (65248) is fixedly connected with four elastic springs (65247) which are symmetrically distributed, the elastic springs (65247) are connected with a buffer plate (65245) through elastic L-shaped supports (65246), wherein the elastic L-shaped supports (65246) are made of high-elasticity steel plate and are L-shaped, and two end points are respectively connected with the buffer plate (65245) and the elastic springs (65247); the lower part of the buffer plate (65245) is fixedly connected with a swinging rod (65241) and two telescopic vertical rods (65244), the swinging rod, the two telescopic vertical rods (65244) form a triangular layout, a telescopic rod spring (65242) and a rod length adjusting (65243) are arranged at the waist part of each telescopic vertical rod (65244), and the length of each telescopic vertical rod (65244) is adjusted through the rod length adjusting (65243).

9. A cleaning device for pipe holes in a circumferential pendulum type sewage treatment device is characterized in that the working method of the cleaning device comprises the following steps:

step 1: in the working process of a pipe hole cleaning device used in a circular swing type sewage treatment device, a driving device drives a box body (7) to integrally swing at a low speed in a circular manner through a rotating shaft (1), a swinging arm (2) and a swinging shaft (3), and the box body (7) is always kept horizontal during swinging; cleaning (6) pipe holes on the surface of the drainage through hole (4) to clean the drainage through hole (4); the pressure release valve (5) is arranged at one end of the box body (7) and is used for protecting the safety of the internal pressure of the box body (7); water to be treated enters from one end of the box body (7) and is discharged from a large number of water discharge through holes (4) on the surface of the box body (7), and an annular heating pipe is arranged in the box body (7) to create an environment temperature suitable for microorganisms; a plurality of injection heads are arranged in the box body (7) and generate dissolved oxygen to promote microorganisms to degrade organic matters in the water body, meanwhile, a large number of microorganisms are attached to the surface of a buffer disc in the box body (7), and when the water body flows through the buffer disc, the organic matters are further degraded;

step 2: in the working of cleaning the pipe holes (6), swinging and spraying (65) above the box body shell (61) realize large-range swinging and spraying work through mechanical control; the pore plate cleaning (64) slides along the surface of the quick-release pore plate (62) through a rack (67), so that the through hole on the surface of the quick-release pore plate (62) is cleaned; the quick-release pore plate (62) is horizontally inserted into a sliding groove at the edge of the box body shell (61) through a pore plate connecting piece (63) and is locked;

and 3, step 3: in the work of the swinging spray (65), the swinging motor (654) pulls the traveling frame (656) to drive the water sprayer (658) to move up and down through the steel cable of the vertical swinging traction (657); the swinging motor (654) pulls the traveling frame (656) to drive the water sprayer (658) to move left and right through the steel cable of the horizontal pendulum pulling (655); the water sprayer (658) sprays the washing object, the water receiving tank (653) is slightly inclined to collect water and promote mud-water separation, and is communicated with the water sprayer (658) through a hose, so that water recycling is realized; the two-dimensional swing rod (652) drives the water receiving tank (653) to swing horizontally, so that mud-water separation is promoted;

and 4, step 4: in the work of the two-dimensional oscillating bar (652), the oscillating drive (6522) drives the balance wheel (6527) to rotate in a large range along the periphery of the cover rail (6528) through the oscillating spring (6523) and the elastic rod (6529), the balance wheel (6527) rotates to generate asymmetrical oscillation, the balance wheel (6527) drives the impact hammer (6524) to impact the water tank rocker (6526) through the cover rail (6528), and the upper part and the tank body are enabled to oscillate in multiple directions on the horizontal plane;

and 5, step 5: in the hammer protection (6520) work, when the ejector rod (65204) is hit by a striker on the left side, the first ejector rod (65204) drives the large-mass solid wheel (65205) to rotate through multi-stage gear change and absorbs kinetic energy generated by the impact; meanwhile, a friction plate at the right end of the push rod (65206) is in controlled contact with the large-mass solid wheel (65205), so that the rotating speed of the large-mass solid wheel (65205) is reduced; the second way of ejector rod (65204) drives the moving plate (65207) to move right through a spring, and the moving plate (65207) is slowed down to move right under the combined action of the damper (65201), the buffer rod (65202) and the compression spring (65203); the gravity column lock catch (65208) is in controlled contact with the side rack of the moving plate (65207), and locking is implemented when an emergency occurs;

and 6, step 6: when the spray head (66) works, one part of water enters from the left side of the honeycomb net (666), the other part of water flows through the interlayer channel (667) and is homogenized through the honeycomb net (666) and the annular homogenizer (665), meanwhile, the upper air pipe carries gas to enter a cavity where the rotating blade (668) is located, and the rotating blade (668) positively rotates clockwise at a high speed to promote the water to be sprayed out from the adjustable nozzle (663); during the period, the derotator (664) rotates anticlockwise and reversely to promote the water body to be gasified;

and 7, step 7: when the gravity column lock catch (65208) works, the fan is in a long-term working state, wind enters a cone from the bottom of the conical cover (652081), the wind speed is increased, the wind is sprayed out from the air outlet (652086) at a high speed, and strong wind is directly blown to the passive fan (652083), so that the passive fan (652083) drives the stirring rod (652082) to continuously stir upwards the diving platform (652085), the diving platform (652085) is continuously stirred by the stirring rod (652082), and the gravity column (652087) drives the counterweight weight (652084) to move upwards and be in a high-position state for a long time; when the horizontal rack at the lower part needs to be locked, the fan is turned off to stop air supply, the diving platform (652085) is not acted by toggle force under the influence of self gravity, the gravity column (652087) falls down, and the rack is locked;

and 8, step 8: in the working process of the impact hammer (6524), a swinging rod (65241) and two telescopic vertical rods (65244) which are arranged in a delta shape realize free lifting on an impact hemisphere (65248) through an upper buffer plate (65245) on the premise of not influencing the impact force; the four elastic springs (65247) and the elastic L-shaped supports (65246) which are symmetrically distributed realize uniform and free lifting of the impacting hemisphere (65248) together.

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