CN220758360U - Demister with multi-ridge structure - Google Patents

Abstract

The utility model relates to a many ridge structure defroster belongs to the technical field of defroster, it includes a plurality of equipment unit, the equipment unit includes two connecting plates and two equipment boards, two connecting plates laminating mutually set up, two equipment boards set up and deviate from one side at two connecting plates mutually, be connected with a plurality of blade between connecting plate and the equipment board, the spread groove has been seted up along the horizontal direction to one side that two connecting plates deviate from mutually, be provided with coupling assembling between two connecting plates, coupling assembling includes a connection piece and two connecting strips, two connecting strips set firmly relatively in the both sides of connection piece, connecting strip and spread groove slip adaptation, the equipment groove has been seted up along the horizontal direction to the lateral wall that two equipment boards are relative, be provided with the equipment subassembly between two adjacent equipment units, the equipment subassembly includes an equipment piece and two equipment strips, two equipment strips set firmly relatively in the both sides of equipment piece, equipment strip and equipment groove slip adaptation, this application has the effect that improves packaging efficiency.

Description

Demister with multi-ridge structure

Technical Field

The application relates to the technical field of demisters, in particular to a demister with a multi-ridge structure.

Background

The desulfurization demister is widely used in wet flue gas desulfurization engineering projects and is used for removing liquid drops in flue gas after desulfurization spraying. Along with the gradual increase of environmental protection requirements, the demister type is developed from a flat plate type to a ridge type, and the demisting efficiency of the ridge type demister is greatly improved compared with that of the flat plate type demister.

The larger distance from the top to the bottom of the single ridge type demister can lead to higher flue where the demister is located, the higher the flue is, the higher the construction cost is, the higher the process requirement is, and the production cost is increased. In order to reduce the height of the demister, a multi-ridge type demister is currently used, the multi-ridge type demister comprises a plurality of single-ridge type structures, the total areas of blades of the demister are approximately the same, and the height of a flue is reduced by reducing the height of the demister, so that the capital cost is reduced.

Aiming at the related technology, the inventor considers that the prior multi-ridge demister has the defects that in the assembly process, a plurality of bolts are used for connecting and fixing two adjacent single-ridge structures, workers are required to screw the bolts one by one in the assembly process, the time is long, and the assembly efficiency is low.

Disclosure of Invention

In order to improve the assembly efficiency of the multi-ridge type demister, the application provides a multi-ridge type demister.

The application provides a many ridge structure defroster adopts following technical scheme:

the utility model provides a many ridge structure defroster, including a plurality of equipment unit, the equipment unit includes two connecting plates and two equipment boards, two connecting plates laminating mutually set up, two equipment boards set up and deviate from one side at two connecting plates mutually, be connected with a plurality of blade between connecting plate and the equipment board, be provided with the clearance between the adjacent blade, the spread groove has been seted up along the horizontal direction to one side that two connecting plates deviate from mutually, the spread groove runs through the lateral wall of connecting plate, be provided with the coupling assembling with the fixed coupling assembling of two between two connecting plates, coupling assembling includes a connection piece and two connecting strips, the connection piece sets up to the arc, two connecting strips set up the both sides at the connection piece relatively, connecting strip and spread groove slip adaptation and two interference fit, the spread groove has been seted up along the horizontal direction to the lateral wall of equipment board to two relative lateral walls of equipment board, be provided with the equipment assembly with the fixed of two between two adjacent equipment units, the equipment assembly includes an equipment piece and two equipment strips, the equipment piece sets up to the arc, two equipment strips set up in the both sides of equipment piece relatively, equipment strip and equipment groove slip adaptation and two interference fit.

By adopting the technical scheme, a worker clings the two connecting plates, then pushes the connecting plates to insert the connecting strips into the connecting grooves, and fixes the two connecting plates through interference fit between the connecting strips and the connecting grooves, so that the installation of the assembly unit is completed; the staff places a plurality of assembled units that the installation was accomplished in proper order, pastes adjacent two assembled boards tightly, then promotes the equipment piece and inserts the equipment strip in the equipment groove, and the interference fit through equipment strip and equipment groove is fixed two assembled boards to accomplish the installation between two assembled units. Through the structure, the assembly efficiency is improved, and the assembly efficiency is improved.

Optionally, the two side walls of the connecting plates, which are away from each other, are fixedly provided with first installation blocks, the two first installation blocks are arranged on two sides of the connecting plates, first installation cavities are formed in the first installation blocks, the first installation cavities penetrate through end faces of two ends of the first installation blocks, the two opposite side walls of the two first installation blocks are provided with first installation grooves which are in splicing fit with the end parts of the blades, the first installation grooves are communicated with the first installation cavities, first split bolts are arranged in the first installation cavities, and the first split bolts penetrate through all the blades; two second installation blocks are fixedly arranged on the opposite side walls of the two assembly plates, the two second installation blocks are respectively arranged on two sides of the assembly plates, second installation cavities are formed in the second installation blocks, the second installation cavities penetrate through the end faces of two ends of the second installation blocks, second installation grooves which are in splicing fit with the end portions of the blades are formed in the opposite side walls of the two second installation blocks, the second installation grooves are communicated with the second installation cavities, second split bolts are arranged in the second installation cavities, and the second split bolts penetrate through all the blades.

By adopting the technical scheme, the two ends of the blade are detachably connected with the assembly plate and the connecting plate, and in the transportation process, the two ends of the blade are not connected with the assembly plate and the connecting plate, so that the occupied area is reduced, and the transportation cost is reduced; in the installation, the staff inserts the both ends of blade respectively in first mounting groove and the second mounting groove, runs through the blade with the split bolt again to this realizes being connected fixedly with tooling plate and connecting plate respectively with the both ends of blade fast.

Optionally, the both ends of blade respectively with connecting plate and equipment board fixed connection, coupling assembling includes a connecting block and two first L templates, two first L templates set firmly in the both sides of connecting block relatively, the tip that two first L templates are close to each other all with spread groove slip adaptation, the equipment subassembly includes an equipment piece and two second L templates, two second L templates set firmly relatively in the both sides of equipment piece, the tip that two second L templates are close to each other all with the slip adaptation of equipment groove.

By adopting the technical scheme, a worker clings to the two connecting plates and pushes the connecting blocks to insert one end of the first L-shaped plate into the connecting groove, so that the installation of the assembly unit is completed; the staff places a plurality of assembled units that the installation was accomplished in proper order, pastes adjacent two assembled boards tightly, then promotes the assembly piece and inserts the one end of second L template in the equipment groove to accomplish the installation between two assembled units. Through the structure, the assembly efficiency is improved, and the assembly efficiency is improved.

Optionally, first cavity has been seted up in the connecting block, be provided with the lead screw between connecting plate and the package rubbing board, the quantity of lead screw is the same and one-to-one with the quantity in clearance, rotate between the one end of lead screw and the package rubbing board and be connected, the other end of lead screw stretches into in the first cavity, and rotate between lead screw and the connecting block and be connected, be provided with the drive assembly who drives all lead screws and rotate in step in the first cavity, the circumference lateral wall threaded connection of lead screw has the removal seat, sliding connection has the gag lever post in the removal seat, the both ends of gag lever post respectively with package rubbing board and connecting plate fixed connection, the lateral wall that removes the seat towards the blade is connected with the commentaries on classics roller, the one end that changes the roller kept away from the removal seat stretches into in the clearance, the lateral wall of changeing the roller has set firmly clean sponge, the outer wall and the blade butt of clean sponge.

Through adopting above-mentioned technical scheme, drive assembly makes the lead screw rotate, and the lead screw rotates and makes the removal seat follow the gag lever post reciprocating sliding to remove the seat and make clean sponge along gag lever post reciprocating motion through changeing the roller, clean sponge from this and clean the blade and wipe repeatedly, realized the clear effect to the blade.

Optionally, the drive assembly includes driving motor, first bevel gear and second bevel gear, the tip fixedly connected with sprocket of first cavity is stretched into to the lead screw, the both sides of first cavity all are provided with the chain, all sprockets of homonymy are walked around to the chain, driving motor installs in first cavity, the output shaft fixed connection of first bevel gear and driving motor, the second bevel gear is provided with two, two second bevel gears all are connected with first bevel gear meshing, two second bevel gears set up respectively in the both sides of first bevel gear, any lead screw fixed connection of both sides in two second bevel gears and the first cavity.

Through adopting above-mentioned technical scheme, driving motor makes the lead screw that links to each other with the second bevel gear rotate through first bevel gear and second bevel gear, and the lead screw makes all lead screws synchronous rotation through sprocket and chain, changes the turning to of lead screw through the turning to of change driving motor output shaft to realized moving seat along gag lever post reciprocating sliding's effect.

Optionally, the second cavity has been seted up in the removal seat, the second cavity is seted up and is being close to one side of commentaries on classics roller at the removal seat, sliding connection has the rack in the removal seat, the rack runs through the second cavity, the both ends of rack respectively with equipment board and connecting plate fixed connection, be provided with the all gear of being connected with the rack meshing in the second cavity, the driving roller has been set firmly in the all gear, rotate between the both ends of driving roller and the removal seat and be connected, the circumference lateral wall of driving roller has set firmly the third bevel gear, the one end that the blade was kept away from to the commentaries on classics roller stretches into in the second cavity, the tip fixedly connected with that the commentaries on classics roller stretches into the second cavity is connected with the fourth bevel gear of third bevel gear meshing.

Through adopting above-mentioned technical scheme, remove the seat and remove and make all-gear along the rack removal to all-gear makes the driving roller rotate, and the driving roller makes the roller rotation through third bevel gear and fourth bevel gear, and the roller makes clean sponge rotate, thereby has improved clean effect.

Optionally, the fixing base has been set firmly to one side that the connecting block was kept away from to the package board, the third cavity has been seted up in the fixing base, be provided with the wash pipe between two fixing bases, a plurality of shower nozzles have been set firmly to the lateral wall of wash pipe, the first connecting pipe has all been set firmly to the lateral wall that two fixing bases are relative, set firmly the second connecting pipe between wash pipe and the two first connecting pipes, first connecting pipe and second connecting pipe are with third cavity and wash pipe intercommunication, the force pump is installed to the pipe wall of first connecting pipe, the both sides of wash pipe all slope is provided with a plurality of guide plates, a plurality of guide plates set up along the incline direction, the lower sideline of water trough has been seted up in the penetration of the lateral wall that two fixing bases are relative, be close to the bottom of the guide plate of fixing base is not higher than water trough, set firmly the backup pad between the lateral wall that two fixing bases are relative, set firmly the support column between backup pad and the guide plate.

Through adopting above-mentioned technical scheme, spout water to the blade through the shower nozzle, water washes the blade, and the water after washing flows into the fixing base through the guide plate and circulates in to make the wash water be difficult for falling into in the desulfurization system of below, realized maintaining the balanced effect of desulfurization system.

Optionally, the junction of fixing base and first connecting pipe runs through and has seted up logical groove, and the fixing base has set firmly the sieve in logical inslot, and the sieve runs through towards the surface of first connecting pipe and has seted up a plurality of sieve mesh.

Through adopting above-mentioned technical scheme, the sieve mesh filters the water that flows into first connecting pipe to intercept the concretion in the sparge water, realized the difficult effect of blockking up of shower nozzle from this.

Optionally, the sieve is provided with the mounting panel towards one side of wash pipe, the mounting panel has run through towards the surface of sieve and has been seted up the hole of permeating water, the mounting panel has set firmly the clearance pole towards the surface of sieve, the quantity of clearance pole is the same and one-to-one with the quantity of sieve mesh, the diameter of clearance pole is less than the diameter of sieve mesh, the mounting panel has set firmly the reset lever towards the surface of sieve, the reset lever is kept away from the one end of mounting panel and is run through the sieve, and reset lever runs through the one end of sieve and has set firmly the reset plate along self length direction and sieve sliding connection, reset spring has set firmly between reset plate and the sieve, be provided with intermittent type nature extrusion reset lever's linkage subassembly between package plate and the fixing base.

By adopting the technical scheme, the linkage assembly intermittently extrudes the reset rod, and when the reset rod is extruded, the reset rod enables the mounting plate to be far away from the sieve plate, so that the cleaning rod is pulled out from the sieve holes by the mounting plate; after the extrusion that the reset lever received disappears, reset spring release elasticity, reset spring makes the mounting panel be close to the sieve through the reset plate to the mounting panel inserts the clearance pole in the sieve mesh. Through above structure, make the clearance pole insert repeatedly in follow the sieve mesh and pull out to the effect to the sieve mesh clearance has been realized.

Optionally, the linkage subassembly includes linkage roller and cam, set up the fourth cavity in the equipment board, the linkage roller sets up in the fourth cavity, the one end of linkage roller stretches into in the third cavity, and rotate between linkage roller and the equipment board and be connected, the one end that the connecting plate was kept away from to the lead screw stretches into in the fourth cavity, and the tip fixedly connected with fifth bevel gear of lead screw in the fourth cavity, the one end fixedly connected with of linkage roller in the fourth cavity and the sixth bevel gear of fifth bevel gear meshing connection, the cam sets up in the third cavity, and cam and linkage roller fixed connection, the lateral wall and the reset lever butt of cam week side.

By adopting the technical scheme, the screw rod rotates to enable the linkage roller to rotate through the fifth bevel gear and the sixth bevel gear, the linkage roller enables the cam to rotate, and when the protruding part of the cam is in contact with the reset rod, the cam presses the reset rod; when the non-convex part of the cam is in contact with the reset rod, the cam does not press the reset rod. Through the structure, the effect that the cam intermittently extrudes the reset rod is realized.

Drawings

FIG. 1 is a schematic view of a demister with a multi-ridge structure according to embodiment 1 of the present application;

FIG. 2 is a partial schematic view of a demister assembly embodying a multi-ridge structure according to embodiment 1 of the present application;

FIG. 3 is a partial schematic view of embodiment 1 of the present application showing the location of the attachment slot and the assembly slot;

fig. 4 is a schematic structural view showing the difference between embodiment 2 and embodiment 1;

FIG. 5 is a partial schematic view of a demister assembly embodying a multi-ridge structure according to embodiment 2 of the present application;

FIG. 6 is a partial schematic view of an embodiment 2 of the present application showing the manner in which a cleaning sponge cleans a blade;

FIG. 7 is a partial cross-sectional view of embodiment 2 of the present application showing the movement of the lead screw;

FIG. 8 is a partial cross-sectional view of example 2 of the present application showing the manner of movement of a roller;

FIG. 9 is a schematic view of a structure showing the position of a spray head according to embodiment 2 of the present application;

FIG. 10 is a partial cross-sectional view of embodiment 2 of the present application showing the position and configuration of the linkage assembly;

fig. 11 is a partial cross-sectional view showing a mesh cleaning method according to example 2 of the present application.

In the figure, 1, an assembly unit; 11. a connecting plate; 111. a connecting groove; 112. a first mounting block; 1121. a first mounting cavity; 1122. a first mounting groove; 113. a cross beam; 1131. a support beam; 12. assembling plates; 121. an assembly groove; 122. a second mounting block; 1221. a second mounting cavity; 1222. a second mounting groove; 123. a fixing seat; 1231. a third cavity; 1232. a water passing tank; 1233. a support plate; 1234. a through groove; 124. a fourth cavity; 2. a blade; 21. a gap; 22. a first split bolt; 23. a second split bolt; 3. a connection assembly; 31. a connecting sheet; 32. a connecting strip; 33. a connecting block; 331. a first cavity; 332. a reinforcing plate; 34. a first L-shaped plate; 4. assembling the assembly; 41. assembling the sheet; 42. assembling the strip; 43. assembling blocks; 44. a second L-shaped plate; 5. a screw rod; 51. a movable seat; 511. a limit rod; 512. a rotating roller; 5121. cleaning a sponge; 5122. a fourth bevel gear; 513. a second cavity; 514. a rack; 515. all-gear; 516. a driving roller; 5161. a third bevel gear; 52. a sprocket; 521. a chain; 53. a fifth bevel gear; 6. a drive assembly; 61. a driving motor; 62. a first bevel gear; 63. a second bevel gear; 7. a flushing pipe; 71. a spray head; 72. a second connection pipe; 721. a first connection pipe; 7211. a pressure pump; 73. a deflector; 731. a support column; 8. a sieve plate; 81. a sieve pore; 9. a mounting plate; 91. a water permeable hole; 92. cleaning a rod; 93. a reset lever; 931. a reset plate; 932. a return spring; 10. a linkage assembly; 101. a linkage roller; 1011. a sixth bevel gear; 102. a cam.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-11.

The embodiment of the application discloses a demister with a multi-ridge structure.

Example 1

Referring to fig. 1 and 2, a demister with a multi-ridge structure includes a plurality of cross beams 113, the cross beams 113 are provided with a plurality of cross beams 113, a plurality of support beams 1131 are fixedly connected between two adjacent cross beams 113, an assembling unit 1 is arranged between two adjacent cross beams 113, a plurality of assembling units 1 are fixedly connected with the cross beams 113, in the embodiment of the application, three assembling units 1 are arranged between two adjacent cross beams, three assembling units 1 are sequentially arranged, and an assembling component 4 is arranged between two adjacent assembling units 1. The staff is fixed with two equipment units 1 through the equipment subassembly 4 to accomplish the equipment of many ridge structure defroster, shortened the equipment time, improved assembly efficiency.

Referring to fig. 1 and 2, the assembly unit 1 includes two connection plates 11, the two connection plates 11 are disposed along a vertical direction and are disposed in a fitting manner, and a connection assembly 3 is disposed between the two connection plates 11.

Referring to fig. 2 and 3, the connecting assembly 3 includes a connecting piece 31 and two connecting strips 32, the connecting piece 31 is an arc, the two connecting strips 32 are relatively fixed on two sides of the connecting piece 31, connecting grooves 111 slidably matched with the connecting strips 32 are formed in the side walls, deviating from the two connecting plates 11, along the horizontal direction, of the connecting strips 11, the connecting grooves 111 penetrate through the end faces of the connecting plates 11, and the connecting grooves 111 are in interference fit with the connecting strips 32.

The staff clings to two adjacent connecting plates 11, then aligns the connecting strips 32 with the connecting grooves 111, the staff pushes the connecting plates 31, and the connecting plates 31 drive the connecting strips 32 to slide into the connecting grooves 111.

Referring to fig. 1, the assembly unit 1 further includes two assembly plates 12, the two assembly plates 12 are disposed on sides of the two connection plates 11 facing away from each other in a vertical direction, and the positions of the assembly plates 12 are lower than those of the connection plates 11, a plurality of blades 2 are connected between the connection plates 11 and the assembly plates 12, the blades 2 are disposed along an oblique direction, and gaps 21 are provided between adjacent blades 2.

Referring to fig. 2, the side walls of the two connecting plates 11 facing away from each other are respectively and fixedly provided with a first mounting block 112 along the horizontal direction, the two first mounting blocks 112 are respectively arranged at the top end and the bottom end of the connecting plate 11, the first mounting blocks 112 are internally provided with first mounting cavities 1121, the first mounting cavities 1121 penetrate through the end faces of the two ends of the first mounting blocks 112, the opposite side walls of the two first mounting blocks 112 are provided with first mounting grooves 1122 which are in splicing fit with the end parts of the blades 2, the first mounting grooves 1122 are communicated with the first mounting cavities 1121, the first mounting cavities 1121 are internally provided with first split bolts 22, and the first split bolts 22 penetrate through all the blades 2 in the first mounting cavities 1121.

The worker inserts the end portions of the blades 2 into the first mounting grooves 1122 one by one, and then inserts split bolts through all the blades 2 to tightly hold the blades 2 by nuts.

Referring to fig. 2 and 3, two adjacent assembly plates 12 are attached to each other, an assembly component 4 is arranged between two adjacent assembly plates 12, the assembly component 4 comprises an assembly sheet 41 and two assembly strips 42, the assembly sheet 41 is an arc-shaped plate, the two assembly strips 42 are relatively fixedly arranged on two sides of the assembly sheet 41, assembly grooves 121 which are in sliding fit with the assembly strips 42 are formed in the opposite side walls of the two assembly plates 12 along the horizontal direction, the assembly grooves 121 penetrate through the end faces of the assembly plates 12, and the assembly grooves 121 are in interference fit with the assembly strips 42.

The worker attaches two adjacent assembly plates 12, aligns the assembly bar 42 with the assembly groove 121, and pushes the assembly piece 41, and the assembly piece 41 drives the assembly block 43 to slide into the assembly groove 121.

Referring to fig. 2, two second installation blocks 122 are fixedly arranged on opposite side walls of the two assembly plates 12 along the horizontal direction, the two second installation blocks 122 are respectively arranged at the top end and the bottom end of the assembly plate 12, second installation cavities 1221 are formed in the second installation blocks 122, the second installation cavities 1221 penetrate through end faces of two ends of the second installation blocks 122, second installation grooves 1222 in plug-in fit with the end parts of the blades 2 are formed in opposite side walls of the two second installation blocks 122, the second installation grooves 1222 are communicated with the second installation cavities 1221, second split bolts 23 are arranged in the second installation cavities 1221, and the second split bolts 23 penetrate through all the blades 2 in the second installation cavities 1221.

The worker inserts the end portions of the blades 2 into the second mounting grooves 1222 one by one, then passes through all the blades 2 with split bolts, and tightens the blades 2 with nuts.

The implementation principle of the demister with the multi-ridge structure in the embodiment 1 of the application is as follows: the worker attaches and tightens the two connecting plates 11, and then pushes the connecting sheet 31 to drive the connecting strip 32 to slide into the connecting groove 111, so that the two connecting plates 11 are connected and fixed; then, the worker inserts both ends of the blade 2 into the first and second mounting grooves 1122 and 1222 one by one, and then penetrates the split bolt through the blade 2, and tightens the blade 2 by the nut, thereby completing the mounting of the assembly unit 1. After the assembly units 1 are installed, a worker attaches and abuts the two assembly plates 12 in the two assembly units 1, and then pushes the assembly sheet 41 to drive the assembly strip 42 to slide into the assembly groove 121, so that the two assembly units 1 are connected and fixed. Through the structure, the effect of improving the assembly efficiency is realized.

Example 2

The difference from example 1 is that: referring to fig. 4 and 5, the connecting assembly 3 includes a connecting block 33 and two first L-shaped plates 34, a first cavity 331 is formed in the first connecting block 33, a driving assembly 6 is disposed in the first cavity 331, the two first L-shaped plates 34 are relatively fixed on two sides of the connecting block 33, and end portions of the two first L-shaped plates 34, which are close to each other, are slidably adapted to the connecting groove 111.

The worker attaches and abuts the two connecting plates 11, aligns the end of the first L-shaped plate 34 with the connecting groove 111, pushes the connecting block 33, and drives the end of the first L-shaped plate 34 to slide into the connecting groove 111 by the connecting block 33.

Referring to fig. 6 and 7, the top end of the blade 2 is fixedly connected with the connecting plate 11, the bottom end of the blade 2 is fixedly connected with the assembling plate 12, the screw rods 5 are obliquely arranged between the connecting plate 11 and the assembling plate 12, the number of the screw rods 5 is the same as that of the gaps 21 and are in one-to-one correspondence, the bottom ends of the screw rods 5 are rotationally connected with the assembling plate 12, the top ends of the screw rods 5 extend into the first cavity 331, the end parts of the screw rods 5 extend into the first cavity 331 are fixedly connected with the chain wheels 52, the top ends of the screw rods 5 are rotationally connected with the connecting block 33, the two sides of the first cavity 331 are respectively provided with the chains 521, and the chains 521 bypass all the chain wheels 52 on the same side.

Referring to fig. 7, the driving assembly 6 includes a driving motor 61, a first bevel gear 62 and a second bevel gear 63, the driving motor 61 is disposed at one end of the first cavity 331, a reinforcing plate 332 is fixedly disposed between the driving motor 61 and an inner wall of the connecting block 33 at the first cavity 331, the first bevel gear 62 is fixedly connected with an output shaft of the driving motor 61, the second bevel gears 63 are disposed at two, the two second bevel gears 63 are engaged with the first bevel gear 62, the two second bevel gears 63 are disposed at two sides of the first bevel gear 62, and the two second bevel gears 63 are fixedly connected with screw rods 5 at two sides of an inner end of the first cavity 331.

The driving motor 61 is started to drive the first bevel gear 62, the first bevel gear 62 drives the second bevel gear 63 to rotate, the second bevel gear 63 drives the lead screw 5 at the end to rotate, the lead screw 5 at the end drives all the lead screws 5 in the first cavity 331 to rotate through the chain wheel 52 and the chain 521, and the steering direction of the lead screw 5 is changed by controlling the steering direction of the output shaft of the driving motor 61.

Referring to fig. 6 and 8, the circumferential side wall of the screw 5 is in threaded connection with a movable seat 51, a second cavity 513 is formed in the movable seat 51, the second cavity 513 is formed in one side of the movable seat 51 close to the blade 2, a limit rod 511 and a rack 514 are slidably connected in the movable seat 51, the rack 514 is fixedly arranged on the side wall of the limit rod 511, which is away from the screw 5, two ends of the limit rod 511 and the rack 514 are fixedly connected with the assembly plate 12 and the connecting plate 11 respectively, and the rack 514 and the limit rod 511 penetrate through the second cavity 513.

Referring to fig. 8, a full gear 515 engaged with the rack 514 is disposed in the second cavity 513, a driving roller 516 is fixedly disposed in the full gear 515, the driving roller 516 is rotatably connected with the movable seat 51, and a third bevel gear 5161 is fixedly disposed on a circumferential side wall of the driving roller 516.

Referring to fig. 6 and 8, the movable seat 51 is rotatably connected with a roller 512 toward the side wall of the blade 2, one end of the roller 512 away from the blade 2 extends into the second cavity 513, the end of the roller 512 extending into the second cavity 513 is fixedly connected with a fourth bevel gear 5122 in meshed connection with the third bevel gear 5161, one end of the roller 512 away from the movable seat 51 extends into the gap 21, a cleaning sponge 5121 is fixedly arranged on the side wall of the roller 512, and the outer wall of the cleaning sponge 5121 is abutted against the blade 2.

The screw rod 5 rotates to drive the movable seat 51 to slide along the limiting rod 511, and the movable seat 51 drives the cleaning sponge 5121 to move along the limiting rod 511 through the rotating roller 512; meanwhile, the moving seat 51 drives the all-gear 515 to roll along the rack 514, so that the all-gear 515 drives the driving roller 516 to rotate, the driving roller 516 drives the third bevel gear 5161 to rotate, the third bevel gear 5161 drives the fourth bevel gear 5122 to rotate, the fourth bevel gear 5122 drives the rotating roller 512 to rotate, and the rotating roller 512 drives the cleaning sponge 5121 to rotate.

Referring to fig. 4 and 5, the assembly component 4 includes an assembly block 43 and two second L-shaped plates 44, the two second L-shaped plates 44 are relatively fixed on two sides of the assembly block 43, the ends of the two second L-shaped plates 44, which are close to each other, are slidably matched with the assembly groove 121, a fixing seat 123 is fixed at the bottom end of the assembly plate 12, which is far away from the assembly block 43, and the fixing seat 123 is fixedly connected with the cross beam 113.

After the pile assembling unit is installed, the worker attaches and abuts two adjacent assembling plates 12, then aligns the end of the second L-shaped plate 44 with the assembling groove 121, then pushes the assembling block 43, and the assembling block 43 drives the end of the second L-shaped plate 44 to slide into the assembling groove 121.

Referring to fig. 4 and 9, a flushing pipe 7 is disposed between two fixing seats 123 in one assembly unit 1, one end of the flushing pipe 7 is provided as a closed structure, the other end of the flushing pipe 7 is connected with an external water source, and a plurality of spray heads 71 are fixedly disposed on the side wall of the flushing pipe 7.

Referring to fig. 9 and 10, the third cavity 1231 is provided in the fixing base 123, the fixing base 123 passes through the water tank 1232 toward the side wall of the flushing pipe 7, the water tank 1232 is provided along the horizontal direction, and the water tank 1232 is communicated with the third cavity 1231, a plurality of guide plates 73 are provided between the flushing pipe 7 and the water tank 1232, the guide plates 73 are provided along the inclined direction, in the embodiment of the application, the guide plates 73 are provided with three, the gravity centers of the three guide plates 73 are arranged on one inclined straight line, the bottom end of the guide plate 73 close to the fixing base 123 is not higher than the lower edge line of the water tank 1232, and the spray head 71 is higher than the upper surface of the guide plate 73 far away from the fixing base 123.

Referring to fig. 9, a support plate 1233 is fixedly disposed between two fixing seats 123 in one assembly unit 1, and a support column 731 is fixedly disposed between the support plate 1233 and the baffle 73.

Referring to fig. 9 and 10, through grooves 1234 are formed in opposite side walls of two fixing seats 123 in one assembly unit 1, the through grooves 1234 are communicated with a third cavity 1231, first connecting pipes 721 are fixedly connected to outer walls of the fixing seats 123 at the through grooves 1234, a pressure pump 7211 is mounted on the pipe wall of each first connecting pipe 721, a second connecting pipe 72 is fixedly arranged between each flushing pipe 7 and the two first connecting pipes 721, and the second connecting pipes 72 are used for communicating the first connecting pipes 721 with the flushing pipes 7.

The external water source enters the flushing pipe 7, the water in the flushing pipe 7 is sprayed to the surface of the blade 2 by the spray head 71, so that the blade 2 is flushed, the water for flushing the blade 2 falls on the surface of the guide plate 73, the flushing water flows into the third cavity 1231 along the guide plate 73 through the water passing groove 1232, and the pressure pump 7211 starts to pump the flushing water in the third cavity 1231 into the flushing pipe 7 through the first connecting pipe 721 and the second connecting pipe 72 for recycling.

Referring to fig. 11, the fixing base 123 is provided with the sieve plate 8 in the through groove 1234, the sieve plate 8 is provided with a plurality of sieve holes 81 towards the surface of the first connecting pipe 721 in a penetrating way, one side of the sieve plate 8 is provided with the mounting plate 9, the mounting plate 9 is arranged in the first connecting pipe 721, the surface of the mounting plate 9 towards the sieve plate 8 is provided with the cleaning rods 92, the number of the cleaning rods 92 is the same as the number of the sieve holes 81 and corresponds to one, and the diameter of the cleaning rods 92 is smaller than the diameter of the sieve holes 81.

Referring to fig. 11, the mounting plate 9 is penetrated and is offered the hole 91 that permeates water towards the surface of sieve 8, permeate water the hole 91 and be provided with two, two holes 91 that permeate water are offered in the both sides of mounting plate 9, the mounting plate 9 has set firmly reset lever 93 towards the surface of sieve 8, reset lever 93 sets up between two holes 91 that permeate water, reset lever 93 keeps away from the one end of mounting plate 9 and runs through sieve 8, and reset lever 93 runs through self length direction and sieve 8 sliding connection, reset lever 93 runs through the one end of sieve 8 and has set firmly reset plate 931, set firmly reset spring 932 between reset plate 931 and the sieve 8, reset spring 932 overlaps and establishes on reset lever 93's circumference lateral wall.

Referring to fig. 10, a fourth cavity 124 is formed in the assembly plate 12, one end of one screw rod 5, which is far away from the connection plate 11, extends into the fourth cavity 124, and a fifth bevel gear 53 is fixedly connected to the end of the screw rod 5, which extends into the fourth cavity 124.

Referring to fig. 10, a linkage assembly 10 is disposed between the assembly plate 12 and the fixing base 123, the linkage assembly 10 includes a linkage roller 101 and a cam 102, the linkage roller 101 is disposed in a fourth cavity 124 along a vertical direction, a bottom end of the linkage roller 101 extends into a third cavity 1231, the linkage roller 101 is rotationally connected with the assembly plate 12, a sixth bevel gear 1011 engaged with and connected with the fifth bevel gear 53 is fixedly connected with an end portion of the linkage roller 101 in the fourth cavity 124, the cam 102 is disposed in the third cavity 1231, the cam 102 is fixedly connected with the linkage roller 101, and a side wall on a circumferential side of the cam 102 is abutted with the reset lever 93.

The screw 5 rotates to drive the fifth bevel gear 53 to rotate, the fifth bevel gear 53 drives the sixth bevel gear 1011 to rotate, the sixth bevel gear 1011 drives the linkage roller 101 to rotate, and the linkage roller 101 drives the cam 102 to rotate. When the protruding part of the cam 102 is abutted against the reset rod 93, the cam 102 presses the reset rod 93, the reset rod 93 drives the mounting plate 9 to be far away from the sieve plate 8, the mounting plate 9 pulls out the cleaning rod 92 from the sieve holes 81, and the reset spring 932 is in a compressed state; when the non-convex portion of the cam 102 abuts against the return lever 93, the return spring 932 releases the elastic force, the return spring 932 drives the mounting plate 9 to approach the screen plate 8 through the return plate 931, and the mounting plate 9 inserts the cleaning lever 92 into the screen hole 81.

The implementation principle of the demister with the multi-ridge structure in embodiment 2 of the application is as follows: the driving assembly 6 drives the movable seat 51 to drive the cleaning sponge 5121 to move through the screw 5, meanwhile, the movable seat 51 drives the driving roller 516 to rotate through the full gear 515 and the rack 514, and the driving roller 516 drives the rotating roller 512 to drive the cleaning sponge 5121 to rotate through the third bevel gear 5161 and the fourth bevel gear 5122, so that the blade 2 is cleaned. The external water source is arranged in the flushing pipe 7, the water in the flushing pipe 7 is sprayed to the blades 2 through the spray head 71, so that the blades 2 are flushed, the flushing water flows into the third cavity 1231 along the guide plate 73, and the water in the third cavity 1231 enters the flushing pipe 7 from the first connecting pipe 721 and the second connecting pipe 72 for circulation after being filtered.

The embodiments of the present utility model are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. A multi-ridge structural mist eliminator, characterized in that: including a plurality of equipment unit (1), equipment unit (1) includes two connecting plates (11) and two equipment boards (12), two connecting plates (11) laminating mutually set up, two equipment boards (12) set up in two connecting plates (11) are carried away from one side mutually, be connected with a plurality of blade (2) between connecting plates (11) and the equipment board (12), be provided with clearance (21) between adjacent blade (2), connecting groove (111) have been seted up along the horizontal direction in one side that two connecting plates (11) deviate from mutually, connecting groove (111) run through the lateral wall of connecting plates (11), be provided with between two connecting plates (11) with the fixed coupling subassembly (3) of two, coupling subassembly (3) include a connection piece (31) and two connecting strips (32), connection piece (31) set up to the arc, two connecting strips (32) set firmly in the both sides of connection piece (31) relatively, connecting strip (32) and connecting groove (111) slip adaptation and two interference fit, assembling groove (121) have been seted up along the horizontal direction to the lateral wall that two equipment boards (12) are relative, be provided with equipment groove (121) between two adjacent side walls (12) with the fixed coupling subassembly (4), the assembly component (4) comprises an assembly sheet (41) and two assembly strips (42), wherein the assembly sheet (41) is an arc-shaped plate, the two assembly strips (42) are relatively fixedly arranged on two sides of the assembly sheet (41), and the assembly strips (42) are in sliding fit with the assembly grooves (121) and are in interference fit with the assembly grooves.

2. A multiple ridge construction mist eliminator as set forth in claim 1 wherein: the two side walls, which are opposite to each other, of the connecting plates (11) are fixedly provided with first mounting blocks (112), the two first mounting blocks (112) are arranged on two sides of the connecting plates (11), first mounting cavities (1121) are formed in the first mounting blocks (112), the first mounting cavities (1121) penetrate through end faces of two ends of the first mounting blocks (112), the opposite side walls of the two first mounting blocks (112) are provided with first mounting grooves (1122) which are in splicing fit with the end parts of the blades (2), the first mounting grooves (1122) are communicated with the first mounting cavities (1121), first pair of pull bolts (22) are arranged in the first mounting cavities (1121), and the first pair of pull bolts (22) penetrate through all the blades (2); two second installation blocks (122) are fixedly arranged on opposite side walls of the two assembly plates (12), the two second installation blocks (122) are respectively arranged on two sides of the assembly plates (12), second installation cavities (1221) are formed in the second installation blocks (122), the second installation cavities (1221) penetrate through end faces of two ends of the second installation blocks (122), second installation grooves (1222) which are in splicing fit with the end portions of the blades (2) are formed in opposite side walls of the two second installation blocks (122), the second installation grooves (1222) are communicated with the second installation cavities (1221), second split bolts (23) are arranged in the second installation cavities (1221), and the second split bolts (23) penetrate through all the blades (2).

3. A multiple ridge construction mist eliminator as set forth in claim 1 wherein: the blade (2) both ends respectively with connecting plate (11) and equipment board (12) fixed connection, coupling assembling (3) are including connecting block (33) and two first L template (34), two first L template (34) set firmly in the both sides of connecting block (33) relatively, the tip that two first L template (34) are close to each other all with spread groove (111) slip adaptation, equipment subassembly (4) include an equipment piece (43) and two second L template (44), two second L template (44) set firmly in the both sides of equipment piece (43) relatively, the tip that two second L template (44) are close to each other all with equipment groove (121) slip adaptation.

4. A multiple ridge construction mist eliminator as claimed in claim 3, characterized in that: offer first cavity (331) in connecting block (33), be provided with lead screw (5) between connecting plate (11) and the equipment board (12), the quantity of lead screw (5) is the same and one-to-one with the quantity of clearance (21), rotate between one end and the equipment board (12) of lead screw (5) and be connected, the other end of lead screw (5) stretches into in first cavity (331), and rotate between lead screw (5) and connecting block (33) and be connected, be provided with in first cavity (331) and drive all lead screw (5) synchronous pivoted actuating assembly (6), the circumference lateral wall threaded connection of lead screw (5) has movable seat (51), be connected with gag lever post (511) in movable seat (51), the both ends of gag lever post (511) respectively with equipment board (12) and connecting plate (11) fixed connection, the lateral wall of movable seat (51) orientation blade (2) is connected with changeing roller (512), the one end that changeing roller (512) kept away from movable seat (51) stretches into in clearance (21), the lateral wall of changeing roller (512) has set firmly clean sponge (5121), the outer wall of cleaning sponge (5121) and blade (2) butt.

5. A multiple ridge construction mist eliminator as set forth in claim 4 wherein: the driving assembly (6) comprises a driving motor (61), a first bevel gear (62) and second bevel gears (63), wherein a lead screw (5) stretches into end parts of a first cavity (331) and is fixedly connected with a chain wheel (52), chains (521) are arranged on two sides of the first cavity (331), the chains (521) bypass all the chain wheels (52) on the same side, the driving motor (61) is arranged in the first cavity (331), the first bevel gear (62) is fixedly connected with an output shaft of the driving motor (61), the second bevel gears (63) are provided with two second bevel gears (63) which are all meshed with the first bevel gear (62), the two second bevel gears (63) are respectively arranged on two sides of the first bevel gear (62), and the two second bevel gears (63) are fixedly connected with any lead screw (5) on two sides in the first cavity (331).

6. A multiple ridge construction mist eliminator as set forth in claim 4 wherein: the utility model discloses a novel gear rack, including movable seat (51), gear rack (514), gear rack (512), gear rack (514), gear rack (515), driving roller (516) are set up in movable seat (51), movable seat (51) is close to one side of roller (512), movable seat (51) sliding connection has rack (514), rack (514) run through second cavity (513), both ends of rack (514) are respectively with package plate (12) and connecting plate (11) fixed connection, be provided with in second cavity (513) with rack (514) meshing connection's all-gear (515), driving roller (516) have been set firmly in all-gear (515), both ends of driving roller (516) all rotate with movable seat (51) between and be connected, third bevel gear (5161) have been set firmly to the circumference lateral wall of driving roller (516), the one end that blade (2) was kept away from to roller (512) stretches into in second cavity (513), the tip fixedly connected with of roller (512) stretches into fourth bevel gear (5122) of second cavity (513) meshing connection with third bevel gear (5161).

7. A multiple ridge construction mist eliminator as set forth in claim 4 wherein: fixing base (123) have been set firmly in one side that connecting block (33) was kept away from to package rubbing board (12), third cavity (1231) have been seted up in fixing base (123), be provided with wash pipe (7) between two fixing bases (123), a plurality of shower nozzles (71) have been set firmly to the lateral wall of wash pipe (7), first connecting pipe (721) have all been set firmly to the lateral wall that two fixing bases (123) are relative, set firmly second connecting pipe (72) between wash pipe (7) and two first connecting pipes (721), third cavity (1231) and wash pipe (7) intercommunication are installed to first connecting pipe (721) and second connecting pipe (72), pressure pump (7211) are installed to the pipe wall of first connecting pipe (721), the both sides of wash pipe (7) all slope is provided with a plurality of guide plates (73), a plurality of guide plates (73) set up along the incline direction, the bottom that guide plate (73) that is close to fixing bases (123) are relative runs through and has seted up water tank (1232), be less than the lower sideline that water tank (1232) is close to guide plate (73), set firmly between support plate (1233) and support plate (1233) are set firmly between support plate (1233).

8. A multiple ridge construction mist eliminator as set forth in claim 7 wherein: the fixed seat (123) runs through the junction of fixed seat (123) and first connecting pipe (721) and has seted up logical groove (1234), and fixed seat (123) have set firmly in logical groove (1234) sieve (8), and the surface of sieve (8) orientation first connecting pipe (721) runs through and has seted up a plurality of sieve mesh (81).

9. A multiple ridge construction mist eliminator as set forth in claim 8 wherein: the utility model provides a cleaning device for the washing machine, a screen plate (8) is provided with mounting panel (9) towards one side of washing pipe (7), the surface of mounting panel (9) towards screen panel (8) runs through and has seted up hole (91) that permeates water, the surface of mounting panel (9) towards screen panel (8) has set firmly clearance pole (92), the quantity of clearance pole (92) is the same and one-to-one with the quantity of sieve mesh (81), the diameter of clearance pole (92) is less than the diameter of sieve mesh (81), the surface of mounting panel (9) towards screen panel (8) has set firmly reset lever (93), the one end that reset lever (93) kept away from mounting panel (9) runs through screen panel (8), and reset lever (93) are followed self length direction and are connected with screen panel (8) sliding, reset lever (93) have set firmly reset plate (931) in the one end of running through screen panel (8), set firmly reset spring (932) between reset plate (931) and the screen panel (8), be provided with between equipment board (12) and fixing base (123) intermittent type extrusion reset lever (93) linkage subassembly (10).

10. A multiple ridge construction mist eliminator as set forth in claim 9 wherein: the linkage assembly (10) comprises a linkage roller (101) and a cam (102), a fourth cavity (124) is formed in the assembly plate (12), the linkage roller (101) is arranged in the fourth cavity (124), one end of the linkage roller (101) stretches into the third cavity (1231), the linkage roller (101) is rotationally connected with the assembly plate (12), one end of a lead screw (5) far away from a connecting plate (11) stretches into the fourth cavity (124), the end of the lead screw (5) in the fourth cavity (124) is fixedly connected with a fifth bevel gear (53), one end of the linkage roller (101) in the fourth cavity (124) is fixedly connected with a sixth bevel gear (1011) meshed with the fifth bevel gear (53), the cam (102) is arranged in the third cavity (1231), the cam (102) is fixedly connected with the linkage roller (101), and the side wall of the periphery of the cam (102) is abutted against a reset rod (93).