CN214051002U - Energy-concerving and environment-protective high-efficient flue gas desulfurization absorption tower - Google Patents

Abstract

The utility model discloses an energy-concerving and environment-protective high-efficient flue gas desulfurization absorption tower, including the device bottom plate, first device shell is installed on device bottom plate top, and installs the fan on the inside top of first device shell, first device shell one end bottom is provided with the box that gathers materials that runs through to the inside bottom of first device shell, the shower nozzle is all installed on the inside both ends top of first device shell. The utility model discloses an advance the tobacco pipe and to the inside smoke and dust that pours into of first device shell, the rethread fan begins to rotate will advance the tobacco pipe and arrange into first device shell and carry out once filtration through the second filter after inside, rethread first filter filters after the second filter filters, rethread driving motor drives the striking piece and shakes fourth device shell after the second filter filters, the granule vibrations of adhesion fall the back through vibrations conduction on the fourth device shell to the second filter on the while through the collection magazine after.

Description

Energy-concerving and environment-protective high-efficient flue gas desulfurization absorption tower

Technical Field

The utility model relates to a flue gas desulfurization absorbs technical field, concretely relates to energy-concerving and environment-protective high-efficient flue gas desulfurization absorption tower.

Background

With the development of society and the continuous progress of science and technology, the flue gas is required to be desulfurized and then discharged into the atmosphere in the production process of thermoelectric enterprises, and if the flue gas is not treated, the flue gas is directly discharged into the air, so that the environment is easily polluted.

The existing device can not effectively treat and recycle the solid particles in the flue gas in the using process, the material waste rate in the flue gas treatment in the device is higher, and the use cost is greatly improved.

Therefore, it is necessary to invent an energy-saving and environment-friendly high-efficiency flue gas desulfurization absorption tower to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-concerving and environment-protective high-efficient flue gas desulfurization absorption tower drives the striking piece through driving motor and shakes the fourth device shell for the second filter can shake, and the granule of adhesion is collected on rethread collection box to the second filter, with the above-mentioned weak point in the solution technique.

In order to achieve the above object, the present invention provides the following technical solutions: an energy-saving and environment-friendly efficient flue gas desulfurization absorption tower comprises a device bottom plate, wherein a first device shell is installed at the top end of the device bottom plate, a fan is installed at the top end inside the first device shell, a material collecting box penetrating through the bottom end inside the first device shell is arranged at the bottom end of one end of the first device shell, spray heads are installed at the top ends of two ends inside the first device shell, a second device shell is installed at the middle position of one end of the first device shell, a feeding groove penetrating through the second device shell is installed at one end, far away from the first device shell, of the second device shell, a water pump is installed at the top end of the second device shell, a first pipeline penetrating through the second device shell is installed at the input end of the water pump, a second pipeline penetrating through the inside of the first device shell and connected with the spray heads is installed at the output end of the water pump, first slide grooves are installed at the top ends inside the first device shell, and the first chute is internally provided with a first filter plate which penetrates through the first device shell and is far away from one end of the second device shell, the first filter plate is provided with a mounting plate and is far away from one end of the second device shell, the bottom ends of the two ends of the first device shell are both provided with a second chute, the inner side of the second chute is provided with a second filter plate which penetrates through one side of the first device shell and is far away from one side of the second device shell, the two ends of the second filter plate and is far away from one side of the second device shell are both provided with a second clamping groove, the second clamping groove is internally provided with a third device shell which is movably connected with the first device shell, the third device shell is internally provided with a pull rod which penetrates through the second clamping groove, one end of the pull rod, which is far away from the second device shell, is both provided with clamping plates, the outer side of the pull rod in the third device shell is both provided with reset springs, one end which is close to the second filter plate is uniformly provided with grooves, and the inside second filter one end of keeping away from of recess all installs spring ejector pin, spring ejector pin is close to second filter one end and all installs the ball piece, first device shell is kept away from second device shell one end intermediate position department and is provided with and runs through to the inside fire tube that advances of first device shell.

Preferably, the mounting panel both ends all are provided with the kelly that runs through the mounting panel and be connected with first device shell, first device shell one end is kept away from to the mounting panel all articulates has the first draw-in groove with the mutual block of kelly.

Preferably, the fourth device shell is all installed on second spout top, and the inside bottom of fourth device shell evenly installs driving motor, the striking piece is all installed to the driving motor output.

Preferably, the nozzles are symmetrical to each other by the fan, and the number of the nozzles is set to two.

Preferably, the first chutes are symmetrical to each other through the fan, the number of the first chutes is two, and the first filter plate is slidably connected with the first chutes.

Preferably, the material collecting box is connected with the first device shell in a sliding mode, and the material collecting box is fixed with the first device shell through a bolt.

Preferably, the third device housing is mounted inside a sidewall of the first device housing by a bearing.

In the technical scheme, the utility model provides a technological effect and advantage:

1. smoke dust is injected into the first device shell through the smoke inlet pipe, the fan starts to rotate to discharge the smoke inlet pipe into the first device shell, the smoke inlet pipe is filtered for the first time through the second filter plate, the second filter plate is filtered and then filtered through the first filter plate, the second filter plate is filtered and then drives the impact block to vibrate the fourth device shell through the driving motor, meanwhile, the vibration on the fourth device shell is transmitted to the second filter plate, then the particles adhered to the second filter plate are vibrated and fall off, and then the particles are collected through the material collecting box;

2. the third device shell is driven by the pull rod to rotate through the clamping plate, the second filter plate is detached after the clamping plate is separated from a certain position after the third device shell rotates to the certain position, and the mounting plate is driven by the first filter plate to be detached after being pulled out from the inside of the first device shell through the first clamping groove after being tripped from the clamping rod.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the formal structure of the present invention;

FIG. 3 is a left side view of the cross-sectional structure of the present invention;

fig. 4 is an enlarged view of the a-portion structure of fig. 3 according to the present invention.

Description of reference numerals:

1. a device chassis; 2. a first device housing; 3. a fan; 4. a material collecting box; 5. a spray head; 6. a second device housing; 7. a feed chute; 8. a water pump; 9. a first conduit; 10. a second conduit; 11. a first chute; 12. a first filter plate; 13. mounting a plate; 14. a clamping rod; 15. a first card slot; 16. a second chute; 17. a second filter plate; 18. a second card slot; 19. a third device housing; 20. a pull rod; 21. clamping a plate; 22. a return spring; 23. a groove; 24. a spring ejector rod; 25. a ball block; 26. a fourth device housing; 27. a drive motor; 28. an impact block; 29. a smoke inlet pipe.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides an energy-concerving and environment-protective high-efficient flue gas desulfurization absorption tower as shown in fig. 1-4, including device bottom plate 1, first device shell 2 is installed on device bottom plate 1 top, and installs fan 3 on the inside top of first device shell 2, 2 one end bottoms of first device shell are provided with the aggregate box 4 that runs through to the inside bottom of first device shell 2, shower nozzle 5 is all installed on the inside both ends top of first device shell 2, 2 one end intermediate position departments of first device shell install second device shell 6, and second device shell 6 keep away from 2 one end of first device shell and install the feed chute 7 that runs through to the inside of second device shell 6, water pump 8 is installed on 6 tops of second device shell, and the 8 input of water pump installs the first pipeline 9 that runs through to the inside of second device shell 6, the 8 output of water pump is installed and is run through to the inside second pipe that is connected with shower nozzle 5 of first device shell 2 10, the top ends of the two ends inside the first device housing 2 are both provided with a first sliding chute 11, the first sliding chute 11 is internally provided with a first filter plate 12 penetrating through the first device housing 2 and far away from one end of the second device housing 6, the end of the first filter plate 12 far away from the second device housing 6 is provided with a mounting plate 13, the bottom ends of the two ends of the first device housing 2 are both provided with a second sliding chute 16, the inner side of the second sliding chute 16 is provided with a second filter plate 17 penetrating through the first device housing 2 and far away from one side of the second device housing 6, the two ends of the second filter plate 17 far away from one side of the second device housing 6 are both provided with a second clamping groove 18, the inside of the second clamping groove 18 is both provided with a third device housing 19 movably connected with the first device housing 2, the inside of the third device housing 19 is both provided with a pull rod 20 penetrating through the second clamping groove 18, one end of the pull rod 20 far away from the second device housing 6 is both provided with a clamping plate 21, the inside pull rod 20 outside of third device shell 19 all is provided with reset spring 22, cardboard 21 is close to second filter 17 one end and evenly sets up fluted 23, and the inside second filter 17 one end of keeping away from of flute 23 all installs spring ejector pin 24, spring ejector pin 24 is close to second filter 17 one end and all installs ball 25, first device shell 2 is kept away from second device shell 6 one end intermediate position department and is provided with and runs through to the inside tobacco pipe 29 that advances of first device shell 2.

Further, in the above technical scheme, mounting plate 13 both ends all are provided with the kelly 14 that runs through mounting plate 13 and be connected with first device shell 2, mounting plate 13 keeps away from first device shell 2 one end and all articulates there is the first draw-in groove 15 with the mutual block of kelly 14.

Further, in the above technical solution, the top end of the second chute 16 is provided with a fourth device housing 26, the bottom end inside the fourth device housing 26 is provided with a driving motor 27, and the output end of the driving motor 27 is provided with an impact block 28.

Further, in the above technical solution, the nozzles 5 are symmetrical to each other through the fan 3, and the number of the nozzles 5 is two.

Further, in the above technical solution, the first sliding grooves 11 are symmetrical to each other through the fan 3, the number of the first sliding grooves 11 is two, and the first filter plate 12 is slidably connected to the first sliding grooves 11.

Further, in the above technical solution, the material collecting box 4 is slidably connected to the first device housing 2, and the material collecting box 4 is fixed to the first device housing 2 by bolts.

Further, in the above-described embodiment, the third device case 19 is mounted inside the side wall of the first device case 2 by a bearing.

This practical theory of operation:

referring to the attached drawings 1-4 of the specification, after a smoke inlet pipe 29 is connected into a smoke pipe, a fan 3 starts to rotate, when the fan 3 rotates, smoke entering the first device shell 2 is filtered for the first time through a second filter plate 17, the smoke is filtered for the second time through a first filter plate 12, when the smoke enters the position between the first filter plate 12 and a second chute 16, an inhibitor is injected into the second device shell 6 through a feeding chute 7, a water pump 8 conveys the inhibitor in the second device shell 6 to the inside of a second pipeline 10 through a first pipeline 9, the inhibitor is conveyed to the inside of a spray head 5 through the second pipeline 10, the inhibitor is sprayed into the first device shell 2 through the spray head 5 to inhibit the smoke, a driving motor 27 in the fourth device shell 26 drives a striking block 28 to strike the fourth device shell 26, the smoke dust particles filtered by the second filter plate 17 are reduced, and the particles are collected through the material collecting box 4, so that the use efficiency of the device is improved;

referring to the attached drawings 1-4 of the specification, when the first filter plate 12 needs to be detached, the first clamping groove 15 is rotated, the first clamping groove 15 is separated from the clamping rod 14, the first filter plate 12 slides out of the first sliding groove 11 through the mounting plate 13, the first filter plate 12 is detached, when the second sliding groove 16 needs to be detached, the clamping plate 21 is rotated, the second clamping groove 18 is penetrated through the clamping plate 21 after the clamping plate 21 is rotated to a certain position, the pull rod 20 is pulled through the reset spring 22, and then the device is detached through the second filter plate 17, so that the second filter plate 17 can be better detached when the device is used.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (7)

1. The utility model provides an energy-concerving and environment-protective high-efficient flue gas desulfurization absorption tower, includes device bottom plate (1), its characterized in that: install first device shell (2) on device bottom plate (1) top, and fan (3) are installed on the inside top of first device shell (2), first device shell (2) one end bottom is provided with and runs through to collection magazine (4) of the inside bottom of first device shell (2), shower nozzle (5) are all installed on the inside both ends top of first device shell (2), second device shell (6) are installed to first device shell (2) one end intermediate position department, and second device shell (6) keep away from first device shell (2) one end and install feed chute (7) that run through to second device shell (6) inside, water pump (8) are installed on second device shell (6) top, and water pump (8) input is installed and is run through to the inside first pipeline (9) of second device shell (6), water pump (8) output is installed and is run through to the inside shower nozzle (5) that is connected with first device shell (2) inside A second pipeline (10), wherein the top ends of the two ends in the first device shell (2) are both provided with a first chute (11), the first chute (11) is internally provided with a first filter plate (12) which penetrates through the first device shell (2) and is far away from one end of the second device shell (6), the end of the first filter plate (12) far away from the second device shell (6) is provided with a mounting plate (13), the bottom ends of the two ends of the first device shell (2) are both provided with a second chute (16), the inner side of the second chute (16) is provided with a second filter plate (17) which penetrates through the first device shell (2) and is far away from one side of the second device shell (6), the two ends of one side of the second filter plate (17) far away from the second device shell (6) are both provided with second clamping grooves (18), and the second clamping grooves (18) are internally provided with third device shells (19) movably connected with the first device shell (2), and inside pull rod (20) that all is provided with through second draw-in groove (18) of third device shell (19), pull rod (20) are kept away from second device shell (6) one end and are all installed cardboard (21), the inside pull rod (20) outside of third device shell (19) all is provided with reset spring (22), cardboard (21) are close to second filter (17) one end and evenly set up fluted (23), and recess (23) inside keep away from second filter (17) one end and all install spring ejector pin (24), ball piece (25) are all installed to spring ejector pin (24) one end near second filter (17), second device shell (6) one end intermediate position department is kept away from in first device shell (2) is provided with and runs through to the inside pipe of advancing of first device shell (2) 29).

2. The energy-saving environment-friendly efficient flue gas desulfurization absorption tower as claimed in claim 1, is characterized in that: mounting panel (13) both ends all are provided with kelly (14) that run through mounting panel (13) and be connected with first device shell (2), first device shell (2) one end is all articulated to be kept away from in mounting panel (13) have first draw-in groove (15) with the mutual block of kelly (14).

3. The energy-saving environment-friendly efficient flue gas desulfurization absorption tower as claimed in claim 1, is characterized in that: fourth device shell (26) are all installed on second spout (16) top, and driving motor (27) are evenly installed to the inside bottom of fourth device shell (26), striking piece (28) are all installed to driving motor (27) output.

4. The energy-saving environment-friendly efficient flue gas desulfurization absorption tower as claimed in claim 1, is characterized in that: the spray heads (5) are mutually symmetrical through the fan (3), and the number of the spray heads (5) is two.

5. The energy-saving environment-friendly efficient flue gas desulfurization absorption tower as claimed in claim 1, is characterized in that: first spout (11) are mutually symmetrical through fan (3), and the quantity of first spout (11) sets up to two, first filter (12) and first spout (11) sliding connection.

6. The energy-saving environment-friendly efficient flue gas desulfurization absorption tower as claimed in claim 1, is characterized in that: the material collecting box (4) is connected with the first device shell (2) in a sliding mode, and the material collecting box (4) is fixed with the first device shell (2) through bolts.

7. The energy-saving environment-friendly efficient flue gas desulfurization absorption tower as claimed in claim 1, is characterized in that: the third device housing (19) is mounted inside the side wall of the first device housing (2) by means of bearings.

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