CN117919875A - High-efficiency water washing tower - Google Patents

Abstract

The application discloses a high-efficiency water scrubber, and belongs to the technical field of waste gas treatment. A high efficiency water scrubber comprising: the tower body, the bottom of the tower body is communicated with an air inlet pipe, and a defogging layer is arranged at the top of the tower body; a packing layer is respectively arranged between every two adjacent spraying pipes, a baffle plate is respectively arranged below each packing layer, the baffle plates are positioned between each packing layer and the spraying pipes adjacent below the packing layers, a water receiving cavity is formed between each baffle plate and the packing layers adjacent above the baffle plates, and each baffle plate is provided with an air passing hole; the upper part of the filter box is communicated with the water receiving cavity, and the lower part of the filter box is communicated with the spray pipe positioned below the water receiving cavity and adjacent to the water receiving cavity; the top of the water storage cavity is communicated with a water supply pipe which is used for supplying water to the spray pipe at the top; and the control mechanism is used for enabling the spray pipe to uniformly spray water. The application has the effect of improving the waste gas treatment efficiency and the quality.

Description

High-efficiency water washing tower

Technical Field

The application relates to the technical field of waste gas treatment, in particular to a high-efficiency water scrubber.

Background

A water scrubber is a device for removing airborne contaminants and is commonly used for the treatment of exhaust gases in industrial processes. The water scrubber removes pollutants such as particulate matter, organic matter, acid gas, and alkaline gas in the exhaust gas by contacting the exhaust gas with water, utilizing the solubility of water. The water washing tower is generally composed of a tower body, a packing layer, a spraying system, a bottom liquid discharge system and the like, is widely applied to the industrial fields of chemical industry, pharmacy, metallurgy and the like, and is common air purifying equipment.

After the exhaust gas enters the water scrubber, water is sprayed into the exhaust gas by a spray system or other means, and the contaminants are dissolved into the water, thereby purifying the exhaust gas. The reference is granted to chinese patent document of bulletin number CN219922476U, it discloses a washing tower, which comprises a tower body, the tower body outside is provided with a water-feeding pipe, wet return and water pump, the water-feeding pipe intercommunication has the main distribution pipe that is located the tower body, main distribution pipe intercommunication has a plurality of second grade water distribution pipes, the last intercommunication of every second grade water distribution pipe has a plurality of tertiary water distribution pipes, still be provided with the multilayer platform in the tower body, be provided with a plurality of water leakage mouth on every platform respectively, carry the tower body top with water through the water-feeding pipe, then water sprays through main distribution pipe, second grade water distribution pipe and tertiary water distribution pipe, waste gas lets in and rises from the tower body bottom, then come to handle waste gas through a plurality of platforms and water solution.

With respect to the related art, as the waste gas is directly introduced into the tower body, the waste gas rises to be treated by dissolving the waste gas with water through a plurality of platforms, but the waste gas is treated by the upper water layer and then falls onto the lower platform, so that the waste water treatment of the lower platform is affected, and the waste water treatment is not facilitated.

Disclosure of Invention

In view of the above, the application provides a high-efficiency water scrubber, which can reduce the influence of upper spraying on lower spraying, thereby being beneficial to improving the waste gas treatment efficiency, and can reduce the probability of blockage caused by gap scaling among filler balls, thereby improving the waste gas treatment efficiency.

In order to solve the technical problems, the application provides a high-efficiency water scrubber, which comprises: the tower body, the bottom of the said tower body communicates with the air inlet pipe, the top in the said tower body has defogging layers; the spraying pipes are arranged in the tower body and are provided with a plurality of spraying pipes, a packing layer is respectively arranged between every two adjacent spraying pipes, a partition plate is respectively arranged below each packing layer, the partition plates are positioned between each packing layer and the adjacent spraying pipe below the packing layer, a water receiving cavity is formed between each partition plate and the adjacent packing layer above the partition plates, and each partition plate is provided with an air passing hole; the upper part of the filter box is communicated with the water receiving cavity, and the lower part of the filter box is communicated with the spray pipe positioned below the water receiving cavity and adjacent to the spray pipe; the water storage cavity is communicated with a water supply pipe at the top and used for supplying water to the spray pipe at the top, a sieve plate is arranged in the water storage cavity, and a drain pipe penetrating through the sieve plate is communicated with the water receiving cavity at the bottom; and the control mechanism is used for enabling the spray pipe to uniformly spray water.

Through adopting above-mentioned technical scheme, when needing to handle waste water, at first, carry the tower body top through the water supply pipe with water and supply water for the shower, then make the shower evenly spill downwards through control mechanism, then fall to the packing layer under water and pass the packing layer and fall to the baffle on, along with the rising of water level, water begins to flow into the rose box in, water flows into next shower after filtering, and make the shower evenly spill through control mechanism, then repeat above-mentioned step, after the water falls to the water receiving cavity of bottom, water returns to the water storage intracavity through the drain pipe, thereby realize water circulation work, then let in waste gas to the intake pipe, waste gas passes through the gas pocket, the packing layer, the spraying of shower upwards flows, after many times separation, get rid of the particulate matter in the waste gas, finally waste gas passes through the defogging layer and exports this water washing tower, handle the upper strata through setting up the rose box and spray the influence that causes to lower floor, and then be favorable to work efficiency's improvement.

Optionally, the control mechanism including install in the rotation source of tower body lateral wall, the drive shaft fixedly connected with actuating lever of rotation source, actuating lever fixedly connected with first gear, the shower top be provided with first annular rack of first gear engagement, be provided with a plurality of shower nozzles on the shower.

Through adopting above-mentioned technical scheme, when needs make shower evenly spill, at first start the rotation source, then the drive shaft that rotates the source drives actuating lever and first gear rotation, and first gear rotation drives first annular rack and shower rotation afterwards to can make the contact of waste gas and water more abundant, be favorable to waste gas treatment efficiency's improvement.

Optionally, the packing layer includes four packing boards that upper and lower interval set up, every set up respectively on the packing board a plurality of water holes, two adjacent be provided with a plurality of packing balls between the packing board, be close to the packing board be provided with be used for making a plurality of adjustment mechanism that the packing ball removed.

Through adopting above-mentioned technical scheme, can make the filler ball between the filler board constantly remove through adjustment mechanism to reduce the scale deposit between the filler ball and cause the probability of jam, improve exhaust treatment efficiency.

Optionally, adjustment mechanism include fixed connection in the dwang of shower bottom, the top the filler board with from last down the third filler board fixed connection in the dwang, dwang bottom fixedly connected with second gear, second gear both sides all + the meshing have the third gear, two the third gear meshing have the fixed connection in the bottom the second annular rack of filler board, the bottom the filler board with from last down the second filler board lateral wall fixedly connected with connecting cylinder.

Through adopting above-mentioned technical scheme, when needs make the filler ball remove, drive the dwang and rotate in shower pivoted, along with the rotation of dwang, the dwang drives the second gear and rotates, then the second gear drives two third gears and rotates, the second annular rack begins to rotate under the drive of third gear, then the second annular rack drives the bottom filler board, the connecting cylinder and from last down the second filler board rotates together, the dwang rotates and can drive top filler board and from last down the third filler board and rotate together, and both rotation direction are opposite, can make the filler ball be in the mobile state all the time, thereby reduce the scale deposit between the filler ball and cause the probability of jam, accelerate the reaction rate of water and waste gas, be favorable to waste gas treatment efficiency's improvement.

Optionally, the first annular rack lateral wall fixedly connected with the cleaning rod of shower top butt.

Through adopting above-mentioned technical scheme, can drive the cleaning rod and rotate when the spray pipe rotates to can clear up the spray pipe top, thereby can clean the spray pipe, can also reduce the influence that the spray pipe scale deposit caused to exhaust treatment.

Optionally, the impeller is fixedly connected with the bottom of the second gear.

Through adopting above-mentioned technical scheme, can drive the impeller and rotate when the second gear rotates, the impeller rotates and can make the more even of waste gas dispersion to reduce the probability of waste gas gathering, be favorable to making the packing layer evenly handle waste gas and be favorable to waste gas treatment efficiency's improvement.

Optionally, the rose box with connect the water cavity and pass through the inlet tube intercommunication, the inlet tube stretches into connect water cavity one end to be provided with the intercommunication joint, connect the lateral wall bottom intercommunication of water cavity to have the blow off pipe, be provided with the valve on the blow off pipe.

Through adopting above-mentioned technical scheme, can reduce waste gas and get into water receiving chamber and follow inlet tube exhaust probability through the intercommunication joint, after this device finishes using, open the valve of blow off pipe, can discharge the sewage of water receiving intracavity.

Optionally, a plurality of access holes are formed in the tower body, and each access hole is plugged through a baffle.

Through adopting above-mentioned technical scheme, through setting up a plurality of access holes to the maintenance and the maintenance of this device of being convenient for.

In summary, compared with the prior art, the application has at least one of the following beneficial technical effects:

1. The water of the waste gas treated by the upper layer is treated by arranging the filter box, so that the influence of upper layer spraying on lower layer spraying is reduced, and the improvement of the working efficiency and the separation quality is facilitated;

2. The control mechanism drives the spray pipe to rotate, so that water and waste gas can be contacted more fully, the waste gas treatment efficiency is improved, meanwhile, the rotating rod can be rotated and drives the packing plates to rotate, so that packing balls between the packing plates continuously move, the probability of blocking structures between the packing balls is reduced, the reaction between the water and the waste gas can be accelerated, and the treatment efficiency is improved;

3. the cleaning rod can be driven to clean the spray pipe when the spray pipe rotates, so that the influence of impurities on the spray pipe on the treated waste gas is reduced, and the waste gas treatment quality and the treatment efficiency are improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a schematic diagram showing the structure of a shower pipe and a filler tank according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a cross-sectional view of an embodiment of the present application;

FIG. 4 is a schematic view showing the structure of an impeller and a connecting cylinder according to an embodiment of the present application;

FIG. 5 is a schematic diagram showing the structure of a second gear and a third gear according to an embodiment of the present application;

fig. 6 is a schematic view showing the structure of the packing plate and the separator according to the embodiment of the present application.

Reference numerals illustrate: 1. a tower body; 11. an air inlet pipe; 12. a defogging layer; 13. a shower pipe; 2. a filler layer; 21. a filler plate; 22. a water passing hole; 3. a partition plate; 31. a water receiving cavity; 32. air passing holes; 33. a filter box; 4. a water storage chamber; 41. a water supply pipe; 42. a sieve plate; 43. a drain pipe; 5. a control mechanism; 51. a rotating source; 52. a driving rod; 53. a first gear; 54. a first annular rack; 541. a cleaning rod; 55. a spray head; 6. an adjusting mechanism; 61. a rotating lever; 62. a second gear; 621. an impeller; 63. a third gear; 64. a second annular rack; 65. a connecting cylinder; 7. a water inlet pipe; 71. a communication joint; 72. a blow-down pipe; 73. a valve; 8. an access opening; 81. and a baffle.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to fig. 1 to 6 of the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the application, fall within the scope of protection of the application.

Referring to fig. 1,2 and 3, a high efficiency water scrubber comprises a tower body 1 erected on a horizontal plane, an air inlet pipe 11 for the entry of waste gas is communicated with the bottom of the tower body 1, a demisting layer 12 is arranged at the top of the tower body 1, the demisting layer 12 is used for removing liquid drops in the waste gas, two spray pipes 13 are arranged in the tower body 1, the spray pipes 13 are positioned below the demisting layer 12, a packing layer 2 is respectively arranged below each spray pipe 13, a conical partition plate 3 is respectively arranged below each packing layer 2, the partition plate 3 is positioned between the upper packing layer 2 and the lower spray pipe 13, a water receiving cavity 31 is formed between each partition plate 3 and the adjacent packing layer 2 above, the air passing holes 32 are formed in the middle of each partition plate 3, the filter boxes 33 are arranged on the outer side of the tower body 1, the upper portions of the filter boxes 33 are communicated with the water receiving cavities 31 through the water inlet pipes 7, the lower portions of the filter boxes 33 are communicated with the lower-layer spray pipes 13, the water storage cavities 4 are formed in the bottoms of the tower body 1, the top of each water storage cavity 4 is communicated with the water feeding pipe 41, the water feeding pipe 41 is used for supplying water to the upper-layer spray pipes 13, the sieve plates 42 are arranged in the water storage cavities 4, the water receiving cavities 31 at the bottoms are communicated with the water discharging pipes 43 penetrating through the sieve plates 42, the control mechanism 5 used for enabling the spray pipes 13 to evenly spray water is arranged on the tower body 1, the plurality of overhaul openings 8 are formed in the upper and lower sides of the tower body 1, and each overhaul opening 8 is plugged through the baffle 81.

The packing layer 2 of the water scrubber is a packing structure which is arranged inside the water scrubber and used for increasing the contact area of gas and liquid, the packing layer 2 has the function of increasing the contact area between gas and liquid and promoting mass transfer between the gas and the liquid, so that the treatment efficiency of the water scrubber is improved, and the filter screen is arranged inside the filter box 33 and can filter the water of the treated waste gas.

When waste water needs to be treated, firstly, water is conveyed to the top of the tower body 1 through the water feeding pipe 41 and is supplied to the spray pipe 13, then the spray pipe 13 uniformly sprays water downwards through the control mechanism 5, then water falls onto the packing layer 2 and passes through the packing layer 2 to fall onto the partition plate 3, along with the rising of the water level, water starts to flow into the filter box 33, water flows into the next spray pipe 13 after being filtered, and uniformly sprays water through the control mechanism 5, after the water falls into the water receiving cavity 31 at the bottom, the water returns into the water storage cavity 4 through the water discharging pipe 43, the water for treating waste gas is filtered through the screen plate 42, thereby realizing the water circulation work, then waste gas is introduced into the air inlet pipe 11, the waste gas flows upwards through the spraying holes 32, the water receiving cavity 31, the packing layer 2 and the spray pipe 13, particles in the waste gas are removed after a plurality of times of separation, finally the waste gas is output into the water washing tower through the mist removing layer 12, the water for treating the waste gas treated at the upper layer through the filter box 33, thereby reducing the influence of the spraying at the upper layer on the lower layer, and further improving the working efficiency.

Referring to fig. 1 and 2, the control mechanism 5 includes a rotation source 51 installed on the outer side wall of the tower body 1, a driving shaft of the rotation source 51 is fixedly connected with a driving rod 52, one end of the driving rod 52 away from the rotation source 51 is fixedly connected with a first gear 53, the top of the spray pipe 13 is provided with a first annular rack 54 meshed with the first gear 53, the side wall of the first annular rack 54 is fixedly connected with a cleaning rod 541 abutted to the top of the spray pipe 13, the spray pipe 13 is a cylindrical pipe arranged vertically, two annular water pipes communicated with the cylindrical pipe and arranged horizontally, and a plurality of spray heads 55 are arranged at the bottoms of the two annular water pipes of the spray pipe 13.

When the shower pipe 13 needs to be uniformly sprayed, the rotating source 51 is started firstly, then the driving shaft of the rotating source 51 drives the driving rod 52 and the first gear 53 to rotate, and then the first gear 53 rotates to drive the first annular rack 54 and the shower pipe 13 to rotate, so that the waste gas can be fully contacted with water, and the waste gas treatment efficiency is improved.

Referring to fig. 2 and 3, the packing layer 2 includes four packing plates 21 arranged at intervals up and down, a supporting shell for supporting the packing layer 2 is fixedly arranged in the tower body 1, a plurality of water passing holes 22 are respectively formed in each packing plate 21, a plurality of packing balls are arranged between two adjacent packing plates 21, and an adjusting mechanism 6 for continuously moving the plurality of packing balls is arranged close to the packing plates 21.

Referring to fig. 2,4, 5 and 6, the adjusting mechanism 6 includes a rotating rod 61 fixedly connected to the bottom of the shower 13, the top packing plate 21 and the third packing plate 21 from top to bottom are fixedly connected to the rotating rod 61, the bottom end of the rotating rod 61 is fixedly connected with a second gear 62, the bottom of the second gear 62 is fixedly connected with an impeller 621, both sides of the second gear 62 are engaged with third gears 63, two third gears 63 are engaged with a second annular rack 64 fixedly connected to the bottom packing plate 21, and the bottom packing plate 21 and the outer side wall of the second packing plate 21 from top to bottom are fixedly connected with a connecting cylinder 65.

When the filler balls need to be moved, the rotating rod 61 is driven to rotate while the spray pipe 13 rotates, the rotating rod 61 drives the second gear 62 to rotate along with the rotation of the rotating rod 61, then the second gear 62 drives the two third gears 63 to rotate, the second annular rack 64 starts to rotate under the driving of the third gears 63, then the second annular rack 64 drives the bottom filler plate 21, the connecting cylinder 65 and the second filler plates 21 from top to bottom to rotate together, the rotating rod 61 rotates to drive the top filler plate 21 to rotate together with the third filler plates 21 from top to bottom, and the rotating directions of the top filler plate and the third filler plates are opposite, so that the filler balls can be always in a moving state, the probability of scaling between the filler balls and blocking is reduced, the reaction speed of water and waste gas is accelerated, and the waste gas treatment efficiency is improved.

Referring to fig. 1 and 3, the filter tank 33 is communicated with the water receiving cavity 31 through the water inlet pipe 7, a communication joint 71 is arranged at one end of the water inlet pipe 7 extending into the water receiving cavity 31, a drain pipe 72 is communicated with the bottom of the side wall of the water receiving cavity 31, and a valve 73 is arranged on the drain pipe 72.

The probability that waste gas enters the water receiving cavity 31 and is discharged from the water inlet pipe 7 can be reduced through the communication joint 71, and after the device is used, the valve 73 of the blow-down pipe 72 is opened, so that sewage in the water receiving cavity 31 can be discharged, and the cleaning of the water washing tower is facilitated.

The implementation principle of the high-efficiency water scrubber provided by the embodiment of the application is as follows: firstly, water is conveyed to the top of the tower body 1 through the water feeding pipe 41 and supplies water to the upper spraying pipe 13, then the rotation source 51 is started to drive the driving rod 52 and the first gear 53 to rotate, then the first gear 53 rotates to drive the first annular rack 54 and the spraying pipe 13 to rotate, then the water falls onto the upper packing layer 2 and passes through the upper packing layer 2 to fall onto the partition plate 3, along with the rising of the water level, the water starts to flow into the filter box 33, the water flows into the lower spraying pipe 13 after being filtered, then the lower spraying pipe 13 is uniformly sprayed with water through the repeated process, then the water falls onto the lower packing layer 2 and passes through the lower packing layer 2 to fall onto the partition plate 3, and returns to the water storage cavity 4 through the water discharging pipe 43, the circulating water supply of the device is realized after being filtered by the sieve plate 42, then the exhaust gas is introduced into the air inlet pipe 11, the exhaust gas flows upwards through the air hole 32, the water receiving cavity 31, the packing layer 2 and the partition plate 13, and finally the treated exhaust gas is output from the water washing tower through the mist removing layer 12 after being separated twice.

Furthermore, it should be noted that, in the description of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application can be understood by those skilled in the art according to the specific circumstances.

While the foregoing is directed to the preferred embodiments of the present application, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present application, and such modifications and adaptations are intended to be comprehended within the scope of the present application.

Claims (8)

1. A high efficiency water scrubber comprising:

the novel spray-drying tower comprises a tower body (1), wherein an air inlet pipe (11) is communicated with the bottom of the tower body (1), and a defogging layer (12) is arranged at the inner top of the tower body (1);

The spray pipes (13) are arranged in the tower body (1) and are provided with a plurality of spray pipes, a packing layer (2) is respectively arranged between every two adjacent spray pipes (13), a partition plate (3) is respectively arranged below each packing layer (2), the partition plate (3) is positioned between each packing layer (2) and the adjacent spray pipe (13) below the partition plate, a water receiving cavity (31) is formed between each partition plate (3) and the adjacent packing layer (2) above the partition plate, and air holes (32) are formed in each partition plate (3);

The upper part of the filter box (33) is communicated with the water receiving cavity (31), and the lower part of the filter box (33) is communicated with the spray pipe (13) positioned below the water receiving cavity (31) and adjacent to the water receiving cavity (31);

the water storage cavity (4), the top of the water storage cavity (4) is communicated with a water supply pipe (41), the water supply pipe (41) is used for supplying water to the spray pipe (13) at the top, a sieve plate (42) is arranged in the water storage cavity (4), and the water receiving cavity (31) at the bottom is communicated with a drain pipe (43) penetrating through the sieve plate (42);

and the control mechanism (5) is used for enabling the spray pipe (13) to uniformly spray water.

2. A high efficiency water scrubber as set forth in claim 1 wherein: the control mechanism (5) comprises a rotating source (51) arranged on the outer side wall of the tower body (1), a driving rod (52) is fixedly connected with a driving shaft of the rotating source (51), a first gear (53) is fixedly connected with the driving rod (52), a first annular rack (54) meshed with the first gear (53) is arranged at the top of the spray pipe (13), and a plurality of spray heads (55) are arranged on the spray pipe (13).

3. A high efficiency water scrubber as set forth in claim 1 wherein: the packing layer (2) comprises four packing plates (21) which are arranged at intervals up and down, a plurality of water passing holes (22) are respectively formed in each packing plate (21), a plurality of packing balls are arranged between two adjacent packing plates (21), and an adjusting mechanism (6) for enabling the packing balls to move is arranged close to the packing plates (21).

4. A high efficiency water scrubber as set forth in claim 3 wherein: the utility model provides an adjusting mechanism (6) including fixed connection in dwang (61) of shower (13) bottom, top filler board (21) with from last down third filler board (21) fixed connection in dwang (61), dwang (61) bottom fixedly connected with second gear (62), second gear (62) both sides all mesh have third gear (63), two third gear (63) mesh have fixed connection in bottom second annular rack (64) of filler board (21), bottom filler board (21) with from last down second filler board (21) lateral wall fixedly connected with connecting cylinder (65).

5. A high efficiency water scrubber as set forth in claim 2 wherein: the side wall of the first annular rack (54) is fixedly connected with a cleaning rod (541) which is abutted to the top of the spray pipe (13).

6. A high efficiency water scrubber as set forth in claim 4 wherein: the bottom of the second gear (62) is fixedly connected with an impeller (621).

7. A high efficiency water scrubber as set forth in claim 1 wherein: the filter box (33) with connect water cavity (31) to pass through inlet tube (7) intercommunication, inlet tube (7) stretch into connect water cavity (31) one end to be provided with communication joint (71), connect the lateral wall bottom intercommunication of water cavity (31) to have blow off pipe (72), be provided with valve (73) on blow off pipe (72).

8. A high efficiency water scrubber as set forth in claim 1 wherein: a plurality of access holes (8) are formed in the tower body (1), and each access hole (8) is plugged through a baffle plate (81).