CN115054952A - Stripping liquid wastewater treatment atomization treatment device - Google Patents

Abstract

The invention discloses a stripping liquid wastewater treatment atomization treatment device which comprises a rectangular frame, wherein a plurality of strip-shaped grooves which are symmetrically arranged and are uniformly arranged are formed in the inner wall of the rectangular frame, four symmetrically arranged lifting driving mechanisms are fixedly installed on the side wall at a port part, a plurality of uniformly arranged foam breaking assemblies are arranged in the lifting driving mechanisms, lifting assemblies connected with the foam breaking assemblies are installed at the bottoms of lifting strip-shaped plates, and two symmetrically arranged strip-shaped holes are formed in the side wall of each lifting strip-shaped plate. The invention solves the problems that the upper parts of a sewage treatment tank and a treatment tank are open, a large amount of mist is generated in the treatment tank and the treatment tank in the sewage treatment process, and if the mist is not treated, the mist overflows from the tank to cause serious pollution to the external tank wall of external equipment, so that the operation condition is deteriorated and the surrounding environment is seriously influenced.

Description

Stripping liquid wastewater treatment atomization treatment device

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a stripping liquid wastewater treatment atomization treatment device.

Background

The factors generated by the mist of the sewage treatment tank and the treatment tank are as follows:

firstly, sludge retention time: the growth rate of microorganisms producing mist is generally low, and the growth period is long, so that the growth of the microorganisms is facilitated by the long sludge retention time. Therefore, the activated sludge method adopting the delayed aeration mode is more likely to generate the foam phenomenon. In addition, once the mist is formed, the biological retention time of the mist layer is independent of the sludge retention time in the aeration tank, and stable and durable mist is easily formed.

II, pH value: different filamentous microorganisms have different requirements on pH, the growth of amarae is extremely sensitive to the pH value, the optimum pH value is 7.8, and when the pH value is reduced from 7.0 to 5.0-5.6, the formation of mist can be effectively reduced. This is mainly because the low pH value exceeds the pH limit of the droplet community that produces the mist. Therefore, when the pH value is 5.0, the growth of the plant can be effectively controlled. However, the change of the pH value can cause the inadaptation of the activated sludge, thereby generating the phenomenon of entrainment.

Thirdly, dissolved oxygen: the nocardia group in the bio-spray is a strictly aerobic microorganism, which cannot grow on the substrate under anoxic or anaerobic conditions, but does not die, while the filamentous fungi, which are different, can utilize nitrate as the final electron acceptor. Therefore, even if the anoxic section or the anaerobic section in the existing nitrogen and phosphorus removal system, the production can still be smoothly carried out. When the dissolved oxygen is insufficient and the system is operated at low load, denitrification entrainment is easily generated.

Fourthly, an aeration mode: the bubbles generated by different aeration modes are different, and micro bubbles or small bubbles are more favorable for generating biological spray than large bubbles, and the spray layer is easily concentrated in a region with low aeration intensity.

Fifthly, temperature: the fungus related to the formation of the biological foam has the respectively proper growth temperature and the optimal temperature, and the foam phenomenon can be generated when the environment or the water temperature is favorable for the growth of the fungus. Furthermore, temperature can also have an effect on microbial communities in the activated sludge system, resulting in the production of bio-entrainment, which can be seen seasonally from the production of many bio-entrainment.

In the prior art, the upper parts of a stripping liquid sewage treatment tank and a treatment tank are open, the treatment tank and the treatment tank often generate a large amount of mist in the sewage treatment process, and if the mist is not treated, the mist overflows from the tank to cause serious pollution to the external tank wall of external equipment, so that the operation condition is deteriorated, and the surrounding environment is seriously influenced.

Disclosure of Invention

The invention aims to solve the problems that the tops of a stripping liquid sewage treatment tank and a treatment tank are open, a large amount of mist is generated in the treatment tank and the treatment tank in the sewage treatment process, and if the mist is not treated, the mist overflows from the tank to cause serious pollution to the external tank wall of external equipment, so that the operating condition is deteriorated, and the surrounding environment is seriously influenced.

In order to achieve the purpose, the invention adopts the following technical scheme: a stripping liquid wastewater treatment atomization treatment device comprises a rectangular frame, wherein a plurality of strip-shaped grooves which are symmetrically arranged and are uniformly arranged are formed in the inner wall of the rectangular frame, four symmetrically arranged lifting driving mechanisms are fixedly installed on the side wall of a port, and a plurality of uniformly arranged spray foam breaking assemblies are arranged in the lifting driving mechanisms; the inner wall of the strip-shaped groove is fixedly connected with two first fixed blocks which are arranged up and down, a guide rod is vertically and fixedly connected between the two first fixed blocks, two lifting strip-shaped plates which are in transmission connection with four lifting driving mechanisms are arranged above the edge of the port of the rectangular frame, lifting assemblies connected with a plurality of mist breaking assemblies are mounted at the bottoms of the lifting strip-shaped plates, and two strip-shaped holes which are symmetrically arranged are formed in the side walls of the lifting strip-shaped plates;

the mist breaking component comprises a fiber cloth which is folded and arranged in a wave shape, the bottom, the top and the corners of the fiber cloth are fixedly connected with a plurality of cross rods, and two sides of the fiber cloth are provided with a plurality of connecting plates which are sequentially hinged end to end;

the lifting assembly comprises a lifting rod which is vertically in sliding cross connection with the two first fixed blocks, the top of the lifting rod is fixedly connected with a rectangular plate, the outer wall close to the bottom of the lifting rod is fixedly connected with a second fixed block in a penetrating manner, the outer wall close to the top of the lifting rod is fixedly connected with a third fixed block in a penetrating manner, the outer wall between the second fixed block and the third fixed block is in sliding cross connection with a plurality of movable blocks which are uniformly arranged, and springs are sleeved on the outer wall;

and a mist high-level monitoring sensor, a mist low-level monitoring sensor and two sensor mist cleaning components are arranged in the rectangular frame.

Preferably, the lateral wall that the connecting plate is close to both ends is for rotating the cross-under with the outer wall that is located two horizontal poles on the same wave form face in the fibre cloth, and the lateral wall of the articulated department of a plurality of connecting plate is for rotating the cross-under in order to realize articulated with the outer wall of horizontal pole.

Preferably, the outer wall that the rectangular plate is close to the top is vertical upwards slip cross-under with the top in bar groove, and extends to the top of rectangular frame, and the top of rectangular plate is fixed connection with the bottom of lift bar board.

Preferably, the second fixed block, the third fixed block and the plurality of movable blocks are positioned between the two first fixed blocks, and the plurality of movable blocks are in sliding cross connection with the outer wall of the guide rod.

Preferably, the top of the spring is fixedly connected with the bottom of the lowest movable block, and the bottom of the spring is fixedly connected with the top surface of the second fixed block.

Preferably, the center department that is located the connecting plate lateral part of the top is connected for rotating through the lateral part of round pin axle with the third fixed block, and the center department that is located the connecting plate lateral part of the bottom is connected for rotating through the lateral wall of round pin axle with the second fixed block, and the center department that is located a plurality of connecting plate lateral part between third fixed block and the second fixed block is connected for rotating through the round pin axle with the lateral wall of movable block respectively.

Preferably, the lifting driving mechanism comprises a motor base fixedly arranged on the side portion of the rectangular frame, a motor is fixedly connected to the top of the motor base, the output end of the motor is connected with a driving disc in a shaft mode, a driving rod is fixedly connected to the eccentric portion of the side portion of the driving disc, and the driving rod penetrates through the inner wall of the strip-shaped hole in a sliding mode.

Preferably, the sensor mist cleaning assembly comprises a rectangular block fixedly embedded in the inner wall of the rectangular frame, a micro motor is fixedly mounted on one side of the rectangular block, which is positioned outside the rectangular frame, the output end of the micro motor is connected with a circular tube in a rotating penetrating manner on the side wall of the rectangular block, one end of the circular tube, which is positioned inside the rectangular frame, is fixedly connected with a strip-shaped tube communicated with the inside of the circular tube, one side of the strip-shaped tube, which is opposite to the rectangular block, is provided with a brush, one side of the strip-shaped tube, which is opposite to the rectangular block, is also provided with a water spraying hole, the outer wall of the circular tube, which is positioned at one end outside the rectangular frame, is provided with a control valve communicated with the inside of the circular tube, and the two sensor mist cleaning assemblies are respectively positioned above and below the mist breaking assembly; the high-level entrainment monitoring sensor is fixedly arranged on the side wall of the rectangular block in the sensor entrainment cleaning assembly above the entrainment cracking assembly and is positioned in the rectangular frame; the low-level monitoring sensor for the mist is fixedly arranged on the side wall of the rectangular block in the sensor mist cleaning assembly below the mist breaking assembly and positioned in the rectangular frame.

A foam treatment method of a stripping liquid wastewater treatment atomization treatment device comprises the following steps:

s1, the bottom port of the rectangular frame is used for being fixedly arranged at the ports of the sewage treatment pool and the treatment tank, and the two control valves on the two sensor mist cleaning components are connected with a water supply pipe;

s2, after the fog foam generated in the sewage treatment process of the sewage treatment tank and the treatment tank rises, and after the fog foam is monitored by the fog foam high-level monitoring sensor, the motor drives the driving rod to move in an annular track through the driving disc, and simultaneously slides on the inner wall of the strip-shaped hole, so that the lifting strip-shaped plate moves in a lifting reciprocating manner;

s3, when the lifting strip-shaped plate is in lifting operation, the rectangular plate can be driven to be in lifting operation, the lifting rod is in vertical lifting sliding in the two first fixed blocks, the lifting rod also slides in the plurality of movable blocks, the second fixed block and the third fixed block are driven to be in synchronous lifting operation at the same time, and the movable block located at the lowest position is driven to vibrate up and down along with the spring under the combined action of inertia and the spring;

s4, the second fixed block pulls the bottom of the spring, the movable block at the lowest part vibrates up and down along with the spring under the combined action of inertia and the spring, the movable block at the lowest part can drive the connecting plate on the movable block to move up and down when vibrating up and down on the lifting rod, the connecting plate and the movable block are connected in a rotating way through the pin shaft, the connecting plate can rotate on the movable block 805, the connecting plate on the movable block and the third fixed block can also rotate, and when the movable block at the lowest part moves up and down, a plurality of connecting plates which are sequentially hinged end to end are linked, so that the fiber cloth which is folded and arranged in a wave shape can be stretched and stretched back and forth in the vertical direction, the folded surfaces of each folded fiber cloth vibrate up and down, mist enters among a plurality of folded fiber cloth which are transversely arranged and vertically arranged, the vibrating folding surface collides with the mist and is gathered into liquid drops, and the liquid drops are separated from the surface of the folded fiber cloth, so that the mist is quickly broken;

s5, the height of mist inside the rectangular frame is reduced, the sensor mist cleaning assembly is positioned above the rectangular frame, the micro motor drives the circular tube to rotate in a forward and reverse reciprocating mode, the strip-shaped tube is made to swing, the control valve is opened, the water spraying holes spray water, the brush cleans the mist high-level monitoring sensor, and residual mist adhered to the mist high-level monitoring sensor is removed;

s6, the inside mist height of rectangular frame continues to descend to the below of mist low level monitoring sensor, and in the sensor mist that is located the below washs the subassembly, little motor drive pipe positive and negative reciprocating rotation makes the swing of strip venturi tube, and the control valve is opened simultaneously, and the hole for water spraying sprays, and the brush is scrubbed mist low level monitoring sensor, clears away the remaining mist on mist high level monitoring sensor with the adhesion, and after the mist low level monitoring sensor can not monitor the mist, the motor stop the operation.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the four lifting driving mechanisms drive the two lifting strip-shaped plates to lift and run, and then the lifting assembly runs the mist breaking assembly, the mist enters among a plurality of transversely arranged and vertically arranged folded fiber cloth, the vibrating folding surface in the mist breaking assembly collides with the mist to be gathered into liquid drops, and the liquid drops are separated from the surface of the folded fiber cloth, so that the mist is quickly broken, the mist is prevented from overflowing from a sewage treatment tank and a treatment tank, and further the serious pollution of external equipment, the wall of the external tank and the wall of the tank is avoided; according to the invention, the fiber cloth is selected to improve the corrosion resistance when the fiber cloth is contacted with sewage.

Drawings

The invention is described in further detail below with reference to the following figures and detailed description:

FIG. 1 is a schematic overall sectional view of the present invention;

FIG. 2 is a schematic structural diagram of a rectangular frame according to the present invention;

FIG. 3 is a schematic structural view of an entrainment breakup assembly of the present invention;

FIG. 4 is a schematic view of the lift assembly of the present invention;

FIG. 5 is a cross-sectional structural schematic of the mist break up and raising assembly of the present invention;

FIG. 6 is a schematic structural view of portion A of FIG. 1 according to the present invention;

FIG. 7 is a schematic structural view of portion B of FIG. 2 according to the present invention;

FIG. 8 is a schematic view of an exploded sensor mist cleaning assembly of the present invention;

fig. 9 is a schematic view of the structure of the strip-shaped pipe of the present invention.

In the figure: 1-rectangular frame, 2-strip groove, 3-lifting driving mechanism, 4-foam breaking component, 5-first fixed block, 6-guide rod, 7-lifting strip plate, 701-strip hole, 8-lifting component, 9-foam high-position monitoring sensor, 10-foam low-position monitoring sensor, 11-sensor foam cleaning component, 301-motor base, 302-motor, 303-driving disk, 304-driving rod, 401-fiber cloth, 402-cross rod, 403-connecting plate, 801-lifting rod, 802-rectangular plate, 803-second fixed block, 804-third fixed block, 805-movable block, 806-spring, 1101-rectangular block, 1102-micro motor, 1103-circular tube, 1104-strip pipe, shaped tube, etc, 1105-brush, 1106-water spray hole, 1107-control valve.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1 to 9. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The invention provides a technical scheme that: a stripping liquid wastewater treatment atomization treatment device comprises a rectangular frame 1, wherein the inner wall of the rectangular frame 1 is provided with a plurality of strip-shaped grooves 2 which are symmetrically arranged and uniformly arranged, four lifting driving mechanisms 3 which are symmetrically arranged are fixedly installed on the side wall of a port, and a plurality of uniformly arranged spray foam breaking assemblies 4 are arranged in the rectangular frame; the inner wall of the strip-shaped groove 2 is fixedly connected with two first fixing blocks 5 which are arranged up and down, a guide rod 6 is vertically and fixedly connected between the two first fixing blocks 5, two lifting strip-shaped plates 7 which are in transmission connection with four lifting driving mechanisms 3 are arranged above the edge of the port of the rectangular frame 1, lifting components 8 which are connected with a plurality of mist foam breaking components 4 are arranged at the bottoms of the lifting strip-shaped plates 7, and two strip-shaped holes 701 which are symmetrically arranged are formed in the side walls of the lifting strip-shaped plates 7;

the bottom port department of rectangle frame 1 is used for fixed mounting in the port department of sewage treatment pond, treatment tank, and the operation of 7 lifts of two lift bar shaped plates of four lift actuating mechanism 3 drives, and then breaks 4 operations of subassembly through lifting unit 8 to the fog foam, breaks the fog foam in sewage treatment pond, the treatment tank.

The mist breaking component 4 comprises a fiber cloth 401 which is folded and arranged in a wave shape, the bottom, the top and the corners of the fiber cloth 401 are fixedly connected with a plurality of cross rods 402, and two sides of the fiber cloth 401 are provided with a plurality of connecting plates 403 which are sequentially hinged end to end; the side walls of the connecting plates 403 close to the two ends are in rotary cross connection with the outer walls of the two cross rods 402 positioned on the same wavy surface in the fiber cloth 401, and the side walls of the hinged parts of the connecting plates 403 are in rotary cross connection with the outer walls of the cross rods 402 to realize hinging; a plurality of connecting plates 403 can be folded; the two cross rods 402 are rotatably connected to the side walls of each two symmetrically-arranged connecting plates 403 in a penetrating manner, each folding surface of the fiber cloth 401 is fixed between the two cross rods 402, a corner of the fiber cloth 401 is a corner formed by folding, the fiber cloth 401 is made of a corrosion-resistant fiber material, and the corrosion-resistant fiber material is any one of basalt fibers, graphene modified fibers and sea island fibers.

The lifting assembly 8 comprises a lifting rod 801 vertically slidably connected with the two first fixed blocks 5 in a penetrating manner, a rectangular plate 802 is fixedly connected to the top of the lifting rod 801, a second fixed block 803 is fixedly connected to the outer wall close to the bottom in a penetrating manner, a third fixed block 804 is fixedly connected to the outer wall close to the top in a penetrating manner, a plurality of movable blocks 805 which are uniformly arranged are slidably connected to the outer wall between the second fixed block 803 and the third fixed block 804 in a penetrating manner, and springs 806 are sleeved on the outer wall; the second fixed block 803, the third fixed block 804 and the plurality of movable blocks 805 are positioned between the two first fixed blocks 5, and the plurality of movable blocks 805 are in sliding cross connection with the outer wall of the guide rod 6; the top of the spring 806 is fixedly connected to the bottom of the lowest one of the movable blocks 805, and the bottom is fixedly connected to the top surface of the second fixed block 803.

When the lifting rod 801 is lifted, the lifting rod 801 vertically lifts and slides in the two first fixed blocks 5, the lifting rod 801 also slides in the plurality of movable blocks 805, the second fixed block 803 and the third fixed block 804 are driven to lift and operate synchronously, and the movable block 805 at the lowest position enables the movable block 805 to vibrate up and down along with the spring 806 under the combined action of inertia and the spring 806; the guide bar 6 guides the up and down movement of the movable block 805.

The outer wall that rectangular plate 802 is close to the top is vertical upwards slip cross-under with the top in bar groove 2, and extends to the top of rectangular frame 1, and the top of rectangular plate 802 is fixed connection with the bottom of lift bar 7, and when lift bar 7 was done, can drive rectangular plate 802 and do the lift operation.

The center of the side of the connecting plate 403 positioned at the top is rotationally connected with the side of the third fixed block 804 through a pin shaft, the center of the side of the connecting plate 403 positioned at the bottom is rotationally connected with the side wall of the second fixed block 803 through a pin shaft, and the centers of the sides of a plurality of connecting plates 403 positioned between the third fixed block 804 and the second fixed block 803 are rotationally connected with the side wall of the movable block 805 through pin shafts respectively;

the third fixed block 804 is fixed on the lifting rod 801, the third fixed block 804 can move up and down along with the lifting rod 801, the second fixed block 803 is also fixed on the lifting rod 801, the second fixed block 803 can also move up and down along with the lifting rod 801, the second fixed block 803 pulls the bottom of the spring 806, a movable block 805 located at the lowest part makes the movable block 805 vibrate up and down along with the spring 806 under the combined action of inertia and the spring 806, when a movable block 805 located at the lowest part vibrates up and down on the lifting rod 801, the connecting plate 403 on the movable block 805 can be driven to move up and down, and meanwhile, the connecting plate 403 and the movable block 805 are connected in a rotating manner through a pin shaft, so that the connecting plate 403 can rotate on the movable block 805, and simultaneously, the connecting plate 403 on the movable block and the third fixed block 804 can also rotate, and further, when a movable block 805 located at the lowest part moves up and down, head and the tail articulated a plurality of connecting plate 403 produces the linkage in proper order, and then make the folding fibre cloth 401 that is the wave form setting reciprocal flexible in vertical direction, vibrate from top to bottom between every folding face of every folding fibre cloth 401, the droplet gets into a plurality of transverse arrangement and for between the folding fibre cloth 401 of vertical setting, the folding face of vibration collides with the droplet, and is gathered into the liquid drop, the droplet is just separated from folding fibre cloth 401 on the surface, and then makes the droplet break fast.

Lifting drive mechanism 3 is including fixed motor cabinet 301 that sets up in the 1 lateral part of rectangle frame, the top fixedly connected with motor 302 of motor cabinet 301, the output hub connection of motor 302 has driving-disc 303, the eccentric fixedly connected with actuating lever 304 of lateral part of driving-disc 303, the inner wall of bar hole 701 is passed in the slip of actuating lever 304, motor 302 is the circular orbit operation through driving-disc 303 drive actuating lever 304, the inner wall at the inner wall of bar hole 701 slides simultaneously, and then make lifting strip shaped plate 7 do the reciprocal operation of going up and down.

The sensor mist cleaning assembly 11 comprises a rectangular block 1101 fixedly embedded in the inner wall of the rectangular frame 1, a micromotor 1102 is fixedly mounted on one side, located outside the rectangular frame 1, of the rectangular block 1101, the output end of the micromotor 1102 is connected with a circular tube 1103 in a shaft connection mode, the circular tube 1103 is rotatably connected to the side wall of the rectangular block 1101 in a penetrating mode, a strip-shaped tube 1104 communicated with the inside of the circular tube 1103 is fixedly connected to one end, located inside the rectangular frame 1, of the circular tube 1103, a brush 1105 is arranged on one side, opposite to the rectangular block 1101, of the strip-shaped tube 1104, a water spraying hole 1106 is further formed in one side, opposite to the rectangular block 1101, of the circular tube 1103, located on one end, outside the rectangular frame 1, of the circular tube 1103, a control valve 1107 communicated with the inside of the circular tube 1107 is arranged, and the two sensor mist cleaning assemblies 11 are respectively located above and below the mist breaking assembly 4; the mist high-level monitoring sensor 9 is fixedly arranged on the side wall of the rectangular block 1101 in the sensor mist cleaning assembly 11 above the mist breaking assembly 4 and is positioned inside the rectangular frame 1; the mist low level monitoring sensor 10 is fixedly installed on the side wall of the rectangular block 1101 in the sensor mist washing assembly 11 located below the mist breaking assembly 4, and is located inside the rectangular frame 1.

Two control valves 1107 on the two sensor mist cleaning assemblies 11 are connected with a water supply pipe;

install high-order monitoring sensor 9 of fog foam, fog foam low level monitoring sensor 10 and two sensor fog foam washing assembly 11 in the rectangle frame 1, high-order monitoring sensor 9 of fog foam, fog foam low level monitoring sensor 10, two control valves 1107 and motor 302 all are connected with the controller.

The high-level monitoring sensor 9 and the low-level monitoring sensor 10 both adopt photoelectric sensors.

A foam treatment method of a stripping liquid wastewater treatment atomization treatment device comprises the following steps:

s1, the bottom port of the rectangular frame 1 is used for being fixedly arranged at the port of a sewage treatment pool and a treatment tank, and two control valves 1107 on the two sensor mist cleaning assemblies 11 are connected with a water supply pipe;

s2, mist generated in the sewage treatment process of the sewage treatment tank and the sewage treatment tank rises, the high-level mist monitoring sensor 9 monitors the mist and feeds monitoring information back to the controller, the controller controls the motor 302 to operate, the motor 302 drives the driving rod 304 to operate in an annular track through the driving disc 303, and the driving rod slides on the inner wall of the strip-shaped hole 701, so that the lifting strip-shaped plate 7 can perform reciprocating operation in a lifting mode;

s3, when the lifting strip 7 is lifting, it can drive the rectangular plate 802 to lift, the lifting rod 801 vertically slides in the two first fixed blocks 5, the lifting rod 801 slides in the plurality of movable blocks 805, and simultaneously drives the second fixed block 803 and the third fixed block 804 to synchronously lift, and one movable block 805 at the bottom makes the movable block 805 vibrate up and down along with the spring 806 under the combined action of inertia and the spring 806;

s4, the second fixed block 803 pulls the bottom of the spring 806, the bottom movable block 805 will vibrate up and down along with the spring 806 under the combined action of inertia and the spring 806, the bottom movable block 805 will drive the connecting plate 403 on the movable block 805 to move up and down when vibrating up and down on the lifting rod 801, and the connecting plate 403 and the movable block 805 will be connected by the pin shaft, so the connecting plate 403 will rotate on the movable block 805, the connecting plate 403 on the movable block 805 and the third fixed block 804 will also rotate, and when the bottom movable block 805 moves up and down, the connecting plates 403 hinged end to end will be linked, so the folded wavy fiber cloth 401 will stretch and contract back and forth in the vertical direction, and each folded fiber cloth 401 will vibrate up and down, the mist enters among a plurality of transversely arranged and vertically arranged folded fiber cloth materials 401, the vibrating folding surface collides with the mist and is gathered into liquid drops, and the liquid drops are separated from the surface of the folded fiber cloth materials 401, so that the mist is quickly broken;

s5, after the controller can run for the running time set by the motor 302, the controller controls the micro-motor 1102 in the sensor mist cleaning component 11 above to run, the micro-motor 1102 drives the circular tube 1103 to rotate in a forward and reverse reciprocating mode, so that the strip-shaped tube 1104 swings, meanwhile, the controller controls the control valve 1107 above to open, the water spraying hole 1106 sprays water, the brush 1105 brushes the mist high-level monitoring sensor 9, and residual mist adhered to the mist high-level monitoring sensor 9 is removed;

s6, after the controller sets another operation time for the motor 302, the controller controls the micro-motor 1102 in the sensor mist cleaning assembly 11 to operate, the control valve 1107 below the controller is opened, the micro-motor 1102 drives the circular tube 1103 to rotate forward and backward, so that the strip-shaped tube 1104 swings, the control valve 1107 is opened, the water spraying holes 1106 spray water, the brush 1105 cleans the mist low-level monitoring sensor 10, and removes the residual mist adhered to the mist high-level monitoring sensor 9, the controller sets the micro-motor 1102 to operate intermittently, and the controller controls the motor 302 to stop operating until the mist low-level monitoring sensor 10 cannot monitor the mist.

Through the arrangement of the high-level mist foam monitoring sensor 9 and the low-level mist foam monitoring sensor 10, the mist foam position is monitored without continuous vibration, the operation load of system machinery is reduced, and the operation energy consumption of the whole system is reduced.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Those skilled in the art can modify or change the above-described embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (9)

1. The utility model provides a peel off liquid waste water treatment atomizing processing apparatus, includes rectangle frame (1), its characterized in that: the inner wall of the rectangular frame (1) is provided with a plurality of strip-shaped grooves (2) which are symmetrically arranged and are uniformly arranged, four lifting driving mechanisms (3) which are symmetrically arranged are fixedly installed on the side wall of the port, and a plurality of mist foam breaking assemblies (4) which are uniformly arranged are arranged in the port; the inner wall of the strip-shaped groove (2) is fixedly connected with two first fixed blocks (5) which are arranged up and down, a guide rod (6) is vertically and fixedly connected between the two first fixed blocks (5), two lifting strip-shaped plates (7) which are in transmission connection with four lifting driving mechanisms (3) are arranged above the edge of the port of the rectangular frame (1), lifting assemblies (8) which are connected with a plurality of mist breaking assemblies (4) are arranged at the bottoms of the lifting strip-shaped plates (7), and two strip-shaped holes (701) which are symmetrically arranged are formed in the side wall of each lifting strip-shaped plate (7);

the mist breaking component (4) comprises a fiber cloth (401) which is folded and arranged in a wave shape, the fiber cloth (401) is made of corrosion-resistant fiber materials, the bottom, the top and corners of the fiber cloth (401) are fixedly connected with a plurality of cross rods (402), and two sides of the fiber cloth (401) are provided with a plurality of connecting plates (403) which are sequentially hinged end to end;

the lifting assembly (8) comprises a lifting rod (801) which is vertically connected with the two first fixed blocks (5) in a sliding and penetrating manner, the top of the lifting rod (801) is fixedly connected with a rectangular plate (802), the outer wall close to the bottom of the lifting rod is fixedly connected with a second fixed block (803) in a penetrating manner, the outer wall close to the top of the lifting rod is fixedly connected with a third fixed block (804) in a penetrating manner, the outer wall between the second fixed block (803) and the third fixed block (804) is connected with a plurality of movable blocks (805) which are uniformly arranged in a sliding and penetrating manner, and springs (806) are sleeved on the outer wall of the lifting rod;

install high-order monitoring sensor of fog foam (9), low-order monitoring sensor of fog foam (10) and two sensor fog foam cleaning assembly (11) in rectangle frame (1).

2. The stripping liquid wastewater treatment atomization treatment device according to claim 1, characterized in that: the side walls of the connecting plates (403) close to two ends are in rotary cross connection with the outer walls of the two cross rods (402) on the same wavy surface in the fiber cloth (401), and the side walls of the hinged positions of the connecting plates (403) are in rotary cross connection with the outer walls of the cross rods (402) to realize hinging.

3. The stripping liquid wastewater treatment atomization treatment device according to claim 1, characterized in that: the outer wall that rectangular plate (802) are close to the top is vertical upwards slip cross-under with the top in bar groove (2), and extends to the top of rectangle frame (1), the top of rectangular plate (802) is fixed connection with the bottom of lift bar board (7).

4. The stripping liquid wastewater treatment atomization treatment device according to claim 1, characterized in that: the second fixed block (803), the third fixed block (804) and the plurality of movable blocks (805) are positioned between the two first fixed blocks (5), and the plurality of movable blocks (805) are in sliding cross connection with the outer wall of the guide rod (6).

5. The stripping liquid wastewater treatment atomization treatment device according to claim 1, characterized in that: the top of the spring (806) is fixedly connected with the bottom of the lowest movable block (805), and the bottom of the spring is fixedly connected with the top surface of the second fixed block (803).

6. The stripping liquid wastewater treatment atomization treatment device according to claim 1, characterized in that: the center of the side part of the connecting plate (403) positioned at the top is rotationally connected with the side part of the third fixed block (804) through a pin shaft, the center of the side part of the connecting plate (403) positioned at the bottom is rotationally connected with the side wall of the second fixed block (803) through a pin shaft, and the centers of the side parts of the connecting plates (403) positioned between the third fixed block (804) and the second fixed block (803) are rotationally connected with the side wall of the movable block (805) through pin shafts respectively.

7. The stripping liquid wastewater treatment atomization treatment device according to claim 1, characterized in that: lifting drive mechanism (3) including fixed motor cabinet (301) that sets up in rectangle frame (1) lateral part, the top fixedly connected with motor (302) of motor cabinet (301), the output coupling of motor (302) has driving-disc (303), the eccentric fixedly connected with actuating lever (304) of lateral part of driving-disc (303), the inner wall of bar hole (701) is passed in the slip of actuating lever (304).

8. The stripping liquid wastewater treatment atomization treatment device according to claim 1, characterized in that: the sensor mist cleaning component (11) comprises a rectangular block (1101) fixedly embedded with the inner wall of the rectangular frame (1), one side of the rectangular block (1101) positioned outside the rectangular frame (1) is fixedly provided with a micromotor (1102), the output end of the micromotor (1102) is connected with a circular tube (1103) which is rotatably connected with the side wall of the rectangular block (1101) in a penetrating way, one end of the round tube (1103) positioned inside the rectangular frame (1) is fixedly connected with a strip-shaped tube (1104) communicated with the inside of the round tube, one side of the strip-shaped pipe (1104) opposite to the rectangular block (1101) is provided with a hair brush (1105), one side of the strip-shaped pipe (1104) opposite to the rectangular block (1101) is also provided with a water spraying hole (1106), the outer wall of one end, located outside the rectangular frame (1), of the round pipe (1103) is provided with a control valve (1107) communicated with the inside of the round pipe, and the two sensor mist cleaning assemblies (11) are respectively located above and below the mist breaking assembly (4); the mist high-level monitoring sensor (9) is fixedly arranged on the side wall of the rectangular block (1101) in the sensor mist cleaning component (11) above the mist breaking component (4) and is positioned inside the rectangular frame (1); the low-level monitoring sensor (10) is fixedly arranged on the side wall of the rectangular block (1101) in the sensor mist cleaning assembly (11) below the mist breaking assembly (4) and is positioned inside the rectangular frame (1).

9. A mist treatment method of a stripping liquid wastewater treatment atomization treatment device, which is characterized in that the stripping liquid wastewater treatment atomization treatment device of any one of claims 1 to 8 is adopted, and the method comprises the following steps:

s1, the bottom port of the rectangular frame (1) is used for being fixedly installed at the port of a sewage treatment pool and a treatment tank, and two control valves (1107) on the two sensor mist cleaning assemblies (11) are connected with a water supply pipe;

s2, mist generated in the sewage treatment process of the sewage treatment tank and the treatment tank rises, after a mist high-level monitoring sensor (9) monitors the mist, a motor (302) drives a driving rod (304) to move in an annular track through a driving disc (303), and simultaneously slides on the inner wall of a strip-shaped hole (701), and a lifting strip-shaped plate (7) moves in a lifting reciprocating mode;

s3, when the lifting strip-shaped plate (7) is in lifting operation, the rectangular plate (802) can be driven to be in lifting operation, the lifting rod (801) is vertically lifted and slid in the two first fixed blocks (5), the lifting rod (801) is also slid in the plurality of movable blocks (805), the second fixed block (803) and the third fixed block (804) are driven to be synchronously lifted and operated, and under the combined action of inertia and the spring (806), the movable block (805) located at the lowest part vibrates up and down along with the spring (806);

s4, the second fixed block (803) pulls the bottom of the spring (806), the movable block (805) at the lowest vibrates up and down along with the spring (806) under the combined action of inertia and the spring (806), the movable block (805) at the lowest vibrates up and down on the lifting rod (801), the connecting plate (403) on the movable block (805) is driven to move up and down, the connecting plate (403) and the movable block (805) are connected in a rotating mode through a pin shaft, the connecting plate (403) can rotate on the movable block, the connecting plates (403) on the movable block (805) and the third fixed block (804) can also rotate, and when the movable block (805) at the lowest moves up and down, the connecting plates (403) which are sequentially hinged end to end are linked, so that the fiber cloth (401) which is folded and arranged in a wave shape can stretch and retract back and forth in the vertical direction, the folding surfaces of each folded fiber cloth (401) vibrate up and down, the mist enters among a plurality of folded fiber cloths (401) which are transversely arranged and vertically arranged, the vibrating folding surfaces collide with the mist to be gathered into liquid drops, and the liquid drops are separated from the surface of the folded fiber cloth (401);

s5, the height of mist inside the rectangular frame (1) is reduced, the sensor mist cleaning assembly (11) is located above, the micro motor (1102) drives the circular tube (1103) to rotate in a forward and reverse reciprocating mode, the strip-shaped tube (1104) swings, meanwhile, the control valve (1107) is opened, the water spraying holes (1106) spray water, the brush (1105) brushes the mist high-level monitoring sensor (9), and residual mist adhered to the mist high-level monitoring sensor (9) is removed;

s6, the height of mist inside the rectangular frame (1) continues to fall below the mist low-level monitoring sensor (10), the sensor mist located below is cleaned in the assembly (11), the micro motor (1102) drives the circular tube (1103) to rotate in a forward and reverse reciprocating mode, the strip-shaped tube (1104) swings, the control valve (1107) is opened simultaneously, the water spraying holes (1106) spray water, the brush (1105) brushes the mist low-level monitoring sensor (10), residual mist adhered to the mist high-level monitoring sensor (9) is removed, and the motor (302) stops running after the mist low-level monitoring sensor (10) cannot monitor the mist.

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