CN113797601A - Desulfurizing liquid desorption cooling tower - Google Patents

Abstract

The invention discloses a desulfurizing liquid desorption cooling tower, which relates to the technical field of industrial sewage treatment, and comprises an installation bottom plate, a lower side support, a precipitation device, a desorption mechanism, a reaction mechanism and an upper side support, and is characterized in that: the lower end of the lower side support is fixedly arranged on the first end of the mounting bottom plate, the upper end of the lower side support is provided with a desorption mechanism, and the desorption mechanism is positioned below the upper end of the lower side support; the sedimentation device is arranged on the mounting bottom plate and is positioned right below the desorption mechanism; the lower end of the upper side support is fixedly arranged at the upper end of the lower side support, and the invention can automatically collect the precipitate, reduce the treatment cost and the treatment difficulty of the sulfur-rich liquid and enable the sulfur-rich liquid desulfurization and automatic cooling processes to be easier and more effective.

Description

Desulfurizing liquid desorption cooling tower

Technical Field

The invention relates to the technical field of industrial sewage treatment, in particular to a desulfurizing liquid desorption cooling tower.

Background

In the environmental sewage treatment equipment technology, domestic sewage and industrial sewage are water treatment key points often faced by people, a sulfur-rich solution in the industrial sewage cannot be directly discharged, the sulfur content must be removed, desorption treatment is carried out, and then cooling is carried out, and finally discharging can be carried out.

The patent with the application number of CN202011020875.X discloses a desulfurization solution desorption cooling tower, wherein a partition plate is arranged in a body of the desulfurization solution desorption cooling tower, and the body is divided into a desorption chamber and a cooling chamber through the partition plate; the desorption chamber is internally provided with a sieve plate, the top of the sieve plate is provided with a separation wall, the top of the separation wall is provided with an exhaust channel, a gas distribution chamber is formed between the bottom of the sieve plate and the separation plate, and the sieve plate and the separation wall form an annular flow channel, so that the automatic desulfurization process is realized, but the high-efficiency desulfurization and cooling cannot be realized. Therefore, the invention automatically mixes the sulfur-rich liquid and the desulfurization powder to generate steam power, automatically utilizes gravity and magnetic force to precipitate and recover, and can automatically carry out the desulfurization process and the automatic cooling process of the sulfur-rich liquid.

Disclosure of Invention

In view of the above technical problems, the present invention provides a desulfurization solution desorption cooling tower, which comprises an installation bottom plate, a lower side support, a precipitation device, a desorption mechanism, a reaction mechanism, an upper side support, a steam power mechanism, a steam box, a stock solution extraction mechanism, a stock solution tower tank, and a tower tank support, and is characterized in that: the lower end of the lower side support is fixedly arranged on the first end of the mounting bottom plate, the upper end of the lower side support is provided with a desorption mechanism, and the desorption mechanism is positioned below the upper end of the lower side support; the sedimentation device is arranged on the mounting bottom plate and is positioned right below the desorption mechanism; the lower end of the upper side support is fixedly arranged at the upper end of the lower side support, the reaction mechanism is arranged right above the desorption mechanism, the lower end of the reaction mechanism is fixedly arranged at the upper end of the lower side support, the side end of the reaction mechanism is fixedly connected with the upper side support, and the reaction mechanism is communicated with the desorption mechanism; the lower end of the steam box is arranged on the reaction mechanism, the steam power mechanism is arranged on the side surfaces of the first ends of the steam box and the reaction mechanism, and the stock solution extracting mechanism is arranged on the side surface of the second end of the reaction mechanism; the lower end of the stock solution tower tank is fixedly arranged at the upper end of the tower tank support, and the lower end of the tower tank support is fixedly arranged at the second end of the mounting bottom plate.

The sedimentation device comprises a floating collection box, a support rod spring, a sliding rod, a sliding spring and a sedimentation tank, wherein the lower end of the support rod is fixedly arranged on the mounting bottom plate, the support rod is sleeved with the support rod spring, the floating collection box is vertically and slidably arranged on the support rod, the upper end of the support rod spring is fixedly connected with the lower end of the floating collection box, and the support rod spring upwards drives the floating collection box; the upper end of the sliding rod is fixedly arranged at the lower end of the floating collecting box, the sliding rod is positioned at four corners of the floating collecting box, the sedimentation tank is vertically and slidably arranged on the sliding rod, the sliding spring is sleeved on the sliding rod and positioned between the sedimentation tank and the sliding rod, and the sliding spring drives the sedimentation tank upwards.

Furthermore, the desorption mechanism comprises an impact desorption tank, a convection pipe and a convection desorber, wherein two ends of a horizontal pipe of the convection pipe are respectively connected with two ends of the convection desorber, and the convection desorber is arranged in the impact desorption tank; the horizontal pipe of the convection pipe is fixedly connected with the impact desorption tank coaxially, and the vertical pipe of the convection pipe is arranged at the lower end of the reaction mechanism.

Furthermore, the reaction mechanism comprises a mixing cooling bin, a mixing blade and a desulphurization powder funnel, wherein the mixing blade and the mixing cooling bin are coaxially and rotatably arranged through a rotating shaft, and the mixing blade is arranged inside the mixing cooling bin; the desulfurizing powder funnel is fixedly arranged on the upper part of the second end of the mixed cooling bin and is communicated with the mixed cooling bin.

Further, still include slide mechanism, slide mechanism include fixed bolster, slip track, take out from board, rolling bearing, the lower extreme fixed mounting of fixed bolster on mounting plate, the upper end of fixed bolster is provided with the inclined plane, the slip track sets up the upper end at the fixed bolster, the slip track is parallel with the inclined plane of fixed bolster, take out from board slidable mounting between the collection box that floats and the sedimentation pond, take out from the first end side-mounting of board and have rolling bearing, rolling bearing slidable mounting in the slip track, the collection box that floats reciprocates the drive on the bracing piece and takes out the board and slide in the slip track.

Furthermore, the sedimentation device also comprises a discharge nozzle, a discharge baffle, a baffle rack, a rotating gear, a driving rack, an adsorption magnet and a collecting box, wherein the discharge nozzle is arranged on the side surface of the floating collecting box; the two sides of the discharging baffle are provided with sliding rails, the discharging baffle is vertically and slidably arranged on the two sides of the discharging nozzle through the sliding rails, the baffle rack is fixedly arranged on the first side of the discharging baffle, the rotating gear is rotatably arranged on the side surface of the floating collecting box, the rotating gear and the discharging nozzle are arranged on the same side, and the baffle rack and the rotating gear are meshed and arranged to form matching; the lower end of the driving rack is fixedly arranged on a mounting rod arranged at the lower end of the lower sedimentation tank, the driving rack is upwards matched with a sliding groove arranged on the side surface of the floating collection box, the driving rack is meshed with the rotating gear to be mounted to form matching, the lower sedimentation tank moves downwards, the driving rack drives the discharge baffle to move upwards, and an opening arranged in the floating collection box is opened; the collecting box is arranged on the mounting bottom plate and is arranged right opposite to the discharging nozzle; the lower extreme in sedimentation tank be provided with the sliding tray, adsorption magnet slidable mounting is in the sliding tray, adsorption magnet slides in the sliding tray and controls the lower extreme of sedimentation tank and opens and shuts down.

Furthermore, the steam power mechanism comprises a steam power cover, steam impeller blades, a steam discharge pipe, a power belt wheel, a power belt and a driven belt wheel, wherein the power belt wheel is rotatably arranged on a fixed shaft arranged on the side surface of the first end of the steam box; the lower end of the steam discharge pipe is fixedly arranged at the upper part of the second end of the steam power cover, and the steam discharge pipe is communicated with the steam power cover.

Further, still include steam pipe, steam cover, the lower extreme fixed mounting of steam cover in the upper end of steam chest, steam cover and steam chest intercommunication, the first end of steam pipe be connected with the upper end of steam cover, the second end of steam pipe is connected with steam power unit's first end, the first end upper end fixed mounting of steam pipe and steam power cover, the steam pipe switches on with steam power cover.

Furthermore, the stock solution extracting mechanism comprises a mixing bearing, a mixing rotating shaft, a large gear, a small gear, an extracting pump shell, a pump body impeller and an input pipe, wherein the mixing bearing is arranged on the side surface of the second end of the mixing cooling bin, the second end shaft of the mixing blade is fixedly arranged on the inner side of the mixing bearing, the first end of the mixing rotating shaft is fixedly arranged on the outer side of the mixing bearing, the mixing rotating shaft and the second end shaft of the mixing blade are coaxially and fixedly connected through the mixing bearing, the large gear is arranged on the second end of the mixing rotating shaft, and the large gear and the mixing rotating shaft are coaxially and fixedly connected; the extraction pump shell is connected with the lower end of the stock solution tower tank through an extraction pipeline, and the extraction pipeline is communicated with the extraction pump shell; the pump body impeller is arranged in the pump extracting case, a pinion is arranged on an outer end shaft of the pump body impeller, the pinion is meshed with a bull gear to form fit, and the bull gear rotates to drive the pinion to drive the pump body impeller to rotate; the first end of the input pipe is fixedly connected with the side end of the extraction pump shell, the second end of the input pipe is connected with the side surface of the second end of the mixed cooling bin, the extraction pump shell and the mixed cooling bin are communicated through the input pipe, the pump body impeller rotates to reduce the pressure in the extraction pump shell, and the liquid in the stock solution tower tank flows into the extraction pump shell through the extraction pipeline and then flows into the mixed cooling bin through the input pipe.

Furthermore, the upper end of the steam box is provided with an exhaust hole, and the exhaust hole is opened to release the pressure in the steam box.

Compared with the prior art, the invention has the beneficial effects that: (1) according to the invention, the sulfur-rich liquid in the stock solution tower tank is extracted into the reaction mechanism through the stock solution extraction mechanism, so that the reaction on the sulfur-rich liquid can be accelerated, and the working efficiency is improved; (2) according to the invention, through the arranged steam power mechanism, the steam power mechanism generates power through the hot steam generated by the reaction, and the sulfur-rich liquid in the mixing and cooling bin is further stirred, so that the reaction is more sufficient, the heat energy in the reaction can be fully utilized, and the energy is saved; (3) the invention can automatically collect the precipitate, reduce the treatment cost and the treatment difficulty of the sulfur-rich liquid and enable the desulfurization and automatic cooling processes of the sulfur-rich liquid to be easier and more effective.

Drawings

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

Fig. 2 is a schematic view of another embodiment of the present invention.

FIG. 3 is a schematic view of the structure of the settling apparatus of the present invention.

Fig. 4 is a schematic structural view of the steam power mechanism of the present invention.

Fig. 5 is a schematic structural view of the sliding mechanism of the present invention.

FIG. 6 is a schematic structural diagram of the raw liquid extracting mechanism of the present invention.

Reference numerals: 1, mounting a bottom plate; 2-lower side support; 3-a precipitation device; 4-impacting the desorption tank; 5-convection tubes; 6-convection desorber; 7-upper side support; 8-a steam power mechanism; 9-a mixing cooling bin; 10-mixing blades; 11-a sliding mechanism; 12-a steam tube; 13-a steam hood; 14-a steam box; 15-desulfurizing powder funnel; 16-a stock solution extraction mechanism; 17-an extraction pipe; 18-a stock solution tower tank; 19-a tower support; 301-floating collection box; 302-support rods; 303-support bar springs; 304-a discharge nozzle; 305-a discharge baffle; 306-baffle rack; 307-a rotating gear; 308-driving the rack; 309-sliding bar; 310-a sliding spring; 311-attracting magnet; 312-a settling tank; 313-a collection box; 801-steam power cover; 802-steam impeller blades; 803-steam discharge pipe; 804-a power pulley; 805-a power belt; 806-a driven pulley; 1101-a fixed support; 1102-a sliding track; 1103-draw-off plate; 1104-a rotational bearing; 1601-hybrid bearing; 1602-a mixing spindle; 1603-bull gear; 1604-pinion gear; 1605-extracting pump case; 1606-pump body impeller; 1607-input tube.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, 2, 3, 4, 5 and 6, a mounting base plate 1 is a rectangular steel plate, the lower end of a lower support 2 is fixedly mounted on a first end of the mounting base plate 1 by welding, the upper end of the lower support 2 is provided with a desorption mechanism, the desorption mechanism is composed of an impact desorption tank 4, a convection pipe 5 and a convection desorber 6, the upper end of the impact desorption tank 4 is fixedly mounted at a position below the upper end of the lower support 2, and a communication opening is formed in the middle of the upper end of the impact desorption tank 4. The lower extreme fixed mounting of upside support 7 is in the upper end of downside support 2, reaction mechanism sets up directly over desorption mechanism, reaction mechanism's lower extreme fixed mounting is in the upper end of downside support 2, reaction mechanism's side and upside support 7 fixed connection, convection tube 5 is provided with horizontal pipe and vertical pipe, convection tube 5's horizontal pipe both ends are connected in the both ends of convection desorber 6 respectively, convection desorber 6 sets up in impacting desorption jar 4, convection tube 5's horizontal pipe is in impacting desorption jar 4 with axle center fixed connection. The middle position of the horizontal pipe of the convection pipe 5 is vertically connected with the vertical pipe of the convection pipe 5, and the vertical pipe of the convection pipe 5 is vertically upward and connected with the lower end of the mixed cooling bin 9 of the reaction mechanism. Reaction unit still includes mixing blade 10, doctor powder funnel 15, and mixing blade 10 passes through the axis of rotation and rotates the installation with the axle center with mixing cooling storehouse 9, and mixing blade 10 sets up in mixing cooling storehouse 9's inside, and mixing blade 10's first end outer end axle stretches out mixing cooling storehouse 9 outwards, and doctor powder funnel 15 fixed mounting is on mixing cooling storehouse 9's second end upper portion, and doctor powder funnel 15 communicates with mixing cooling storehouse 9. The lower end of the steam box 14 is arranged above the mixed cooling bin 9 of the reaction mechanism, and the steam box 14 is communicated with the mixed cooling bin 9.

The steam power mechanism 8 is arranged on the side face of the first end of the steam box 14 and the mixed cooling bin 9, the lower end of the steam cover 13 is fixedly installed at the upper end of the steam box 14, the steam cover 13 is communicated with the steam box 14, the first end of the steam pipe 12 is connected with the upper end of the steam cover 13, the second end of the steam pipe 12 is connected with the first end of the steam power mechanism 8, and the steam pipe 12 is communicated with the steam power mechanism 8. The stoste extracting mechanism 16 is arranged on the side face of the second end of the mixed cooling bin 9, the lower end of the stoste tower tank 18 is fixedly installed at the upper end of a tower tank support 19, the lower end of the tower tank support 19 is fixedly installed at the second end of the installation bottom plate 1, the first end of the extracting pipeline 17 is connected with the lower end of the stoste tower tank 18, the second end of the extracting pipeline 17 is connected with the stoste extracting mechanism 16, and the extracting pipeline 17 communicates the stoste tower tank 18 with the stoste extracting mechanism 16.

As shown in fig. 1, 2 and 4, the power pulley 804 is rotatably mounted on a fixed shaft disposed on a side surface of a first end of the steam box 14, a first end of the steam power cover 801 is fixedly connected with a side surface of a side of the steam box 14, the steam impeller blade 802 is disposed inside the steam power cover 801, the steam impeller blade 802 is rotatably mounted on the steam power cover 801, the steam impeller blade 802 and the power pulley 804 are coaxially and fixedly connected, the power pulley 804 is rotatably mounted on the fixed shaft disposed on the side surface of the first end of the steam box 14, the driven pulley 806 is coaxially and fixedly connected with an outer end shaft of the first end of the hybrid blade 10, the power belt 805 is sleeved on the power pulley 804 and the driven pulley 806, the steam impeller blade 802 rotates to drive the power pulley 804 to rotate, and the power pulley 804 rotates the driven pulley 806 through a transmission function of the power belt 805, so as to rotate the hybrid blade 10; the lower end of the steam discharge pipe 803 is mounted on the upper portion of the second end of the steam power cover 801, and the steam discharge pipe 803 communicates with the steam power cover 801.

As shown in fig. 6, the raw liquid extracting mechanism includes a mixing bearing 1601 disposed at a second end side of the mixing and cooling bin 9, a second end shaft of the mixing blade 10 fixedly mounted inside the mixing bearing 1601, a first end of a mixing rotating shaft 1602 fixedly mounted at an outer end of the mixing bearing 1601, the mixing rotating shaft 1602 and the second end shaft of the mixing blade 10 are coaxially and fixedly connected through the mixing bearing 1601, a large gear 1603 is mounted at a second end of the mixing rotating shaft 1602, and the large gear 1603 and the mixing rotating shaft 1602 are coaxially and fixedly connected; the extraction pump shell 1605 is connected with the lower end of the stock solution tower tank 18 through an extraction pipeline 17, the extraction pipeline 17 is communicated with the extraction pump shell 1605, the pump body impeller 1606 is arranged inside the extraction pump shell 1605, a small gear 1604 is arranged on the outer end shaft of the pump body impeller 1606, the small gear 1604 is meshed with the large gear 1603 to be installed to form matching, and the large gear 1603 rotates to drive the small gear 1604 to drive the pump body impeller 1606 to rotate; the first end of the input pipe 1607 is fixedly connected with the side end of the extraction pump casing 1605, the second end of the input pipe 1607 is connected with the side surface of the second end of the mixed cooling bin 9, and the input pipe 1607 conducts the extraction pump casing 1605 and the mixed cooling bin 9.

When a reaction is required, the desulphurization powder is poured into the mixed cooling bin 9 from the desulphurization powder hopper 15, then the pressure in the stock solution tower tank 18 is increased, so that the sulfur-rich liquid in the stock solution tower tank 18 enters the mixed cooling bin 9, the desulphurization powder reacts with the desulphurization powder to generate hot steam, the hot steam upwards enters the steam power mechanism 8 through the steam pipe 12, the steam impeller blade 802 rotates and simultaneously drives the driven pulley 806 to rotate, the mixing blade 10 rotates, and the desulphurization powder and the sulfur-rich liquid fully react; the mixing blade 10 rotates and simultaneously drives the mixing rotating shaft 1602 to rotate, the mixing rotating shaft 1602 drives the pump body impeller 1606 to rotate in the extraction pump shell 1605, the rotating speed of the pump body impeller 1606 is accelerated to reduce the pressure in the extraction pump shell 1605, and the sulfur-rich liquid flows into the extraction pump shell 1605 from the stock solution tower tank 18 and then flows into the mixing and cooling bin 9, so that automatic feeding is realized.

As shown in fig. 3, four support rods 302 are provided, the lower ends of the support rods 302 are fixedly mounted on the mounting base plate 1, each support rod 302 is sleeved with a support rod spring 303, round holes arranged at four corners of the upper end of the floating collection box 301 are vertically slidably mounted on the support rods 302, the upper ends of the support rod springs 303 are fixedly connected with the lower ends of the floating collection box 301, the support rod springs 303 drive the floating collection box 301 upwards, and when the gravity of the floating collection box 301 is greater than the elastic force of the support rod springs 303, the floating collection box 301 compresses the support rod springs 303 to move downwards; sliding rods 309 are fixedly installed at four corners of the lower end of the floating collection box 301, each sliding rod 309 is sleeved with a sliding spring 310, the lower sedimentation tank 312 is installed on the sliding rod 309 in a vertically sliding mode, the sliding spring 310 is located between the lower sedimentation tank 312 and the sliding rod 309, the sliding spring 310 drives the lower sedimentation tank 312 upwards, and when the weight of the lower sedimentation tank 312 is larger than the elastic force of the sliding spring 310, the lower sedimentation tank 312 compresses the sliding spring 310 to move downwards. The discharging nozzle 304 is arranged on the side surface of the floating collection box 301, the floating collection box 301 is connected with the discharging nozzle 304, an opening with the same size as that of the discharging nozzle 304 is formed in the floating collection box 301, and the discharging nozzle 304 is communicated with the opening of the floating collection box 301; the discharging baffle 305 is a rectangular plate, sliding rails are arranged on two sides of the discharging baffle 305, the discharging baffle 305 is vertically and slidably mounted on two sides of the discharging nozzle 304 through the sliding rails, the baffle rack 306 is fixedly mounted on the first side of the discharging baffle 305, the rotating gear 307 is rotatably mounted on the side surface of the floating collecting box 301, the rotating gear 307 is mounted on the same side of the discharging nozzle 304, the rotating gear 307 is located on one side of the baffle rack 306, and the rotating gear 307 is meshed with the baffle rack 306 to form matching; the lower end of the driving rack 308 is fixedly arranged on a mounting rack arranged at the lower end of the lower sedimentation tank 312, the sliding rod 309 upwards matches with a sliding groove arranged on the side surface of the floating collection box 301, and the driving rack 308 is meshed with the rotating gear 307 to form matching. The collecting box 313 is arranged on the mounting base plate 1, the collecting box 313 is arranged right opposite to the discharging nozzle 304, the lower end of the lower sedimentation tank 312 is provided with a sliding groove, the adsorption magnet 311 is arranged in the sliding groove in a sliding manner, and the adsorption magnet 311 slides in the sliding groove to control the lower end of the lower sedimentation tank 312 to open and close.

As shown in fig. 5, a lower end of a fixing bracket 1101 is fixedly installed on the installation base plate 1, the fixing bracket 1101 is located at a middle position of the installation base plate 1, an upper end of the fixing bracket 1101 is provided with an inclined surface, a sliding rail 1102 is arranged at an upper end of the fixing bracket 1101, and the sliding rail 1102 is parallel to the inclined surface of the fixing bracket 1101. A drawing-off plate 1103 is slidably installed between the floating collection box 301 and the lower sedimentation tank 312, the drawing-off plate 1103 closes an opening at the lower end of the floating collection box 301, a rotary bearing 1104 is installed at a first end side of the drawing-off plate 1103, and the rotary bearing 1104 is slidably installed in the sliding rail 1102.

When the desulfurization solution and impurities flow into the floating collection box 301 from the impact desorption tank 4 to start deposition, the weight of the floating collection box 301 is gradually increased, the floating collection box 301 and the lower deposition pool 312 integrally compress the support rod spring 303 downwards to move, the floating collection box 301 drives the extraction plate 1103 to move downwards, the extraction plate 1103 slides on the sliding rail 1102 to open the lower end opening of the extraction plate 1103 and the floating collection box 301, the impurities deposited in the floating collection box 301 flow into the lower deposition pool 312 from the opening, and the impurities are adsorbed by the adsorption magnet 311; when the mass of impurities in the lower sedimentation tank 312 is larger than the elastic force of the sliding spring 310, the lower sedimentation tank 312 compresses the sliding spring 310 to move downwards, the lower sedimentation tank 312 drives the driving rack 308 to move downwards, the driving rack 308 drives the rotating gear 307 to rotate, the rotating gear 307 drives the baffle rack 306 to move upwards, so that the opening of the discharge baffle 305 matched with the floating collection box 301 is opened, the doctor solution in the floating collection box 301 flows into the collection box 313 from the discharge nozzle 304, the mass of the floating collection box 301 is reduced, and the support rod spring 303 drives the floating collection box 301 to move upwards.

Claims (8)

1. The utility model provides a doctor solution desorption cooling tower, includes mounting plate, downside support, deposits device, desorption mechanism, reaction mechanism, upside support, steam power unit, steam chest, stoste extraction mechanism, stoste tower jar, tower jar support, its characterized in that: the lower end of the lower side support is fixedly arranged on the first end of the mounting bottom plate, the upper end of the lower side support is provided with a desorption mechanism, and the desorption mechanism is positioned below the upper end of the lower side support; the sedimentation device is arranged on the mounting bottom plate and is positioned right below the desorption mechanism; the lower end of the upper side support is fixedly arranged at the upper end of the lower side support, the reaction mechanism is arranged right above the desorption mechanism, the lower end of the reaction mechanism is fixedly arranged at the upper end of the lower side support, the side end of the reaction mechanism is fixedly connected with the upper side support, and the reaction mechanism is communicated with the desorption mechanism; the lower end of the steam box is arranged on the reaction mechanism, the steam power mechanism is arranged on the side surfaces of the first ends of the steam box and the reaction mechanism, and the stock solution extracting mechanism is arranged on the side surface of the second end of the reaction mechanism; the lower end of the stock solution tower is fixedly arranged at the upper end of the tower bracket, and the lower end of the tower bracket is fixedly arranged at the second end of the mounting bottom plate;

the sedimentation device comprises a floating collection box, a support rod spring, a sliding rod, a sliding spring and a sedimentation tank, wherein the lower end of the support rod is fixedly arranged on the mounting bottom plate, the support rod is sleeved with the support rod spring, the floating collection box is vertically and slidably arranged on the support rod, the upper end of the support rod spring is fixedly connected with the lower end of the floating collection box, and the support rod spring upwards drives the floating collection box; the upper end of the sliding rod is fixedly arranged at the lower end of the floating collection box, the sliding rod is positioned at the four corners of the floating collection box, the sedimentation tank is arranged on the sliding rod in a vertically sliding manner, the sliding spring is sleeved on the sliding rod and is positioned between the sedimentation tank and the sliding rod, and the sliding spring drives the sedimentation tank upwards;

the desorption mechanism comprises an impact desorption tank, a convection pipe and a convection desorber, wherein two ends of a horizontal pipe of the convection pipe are respectively connected with two ends of the convection desorber, and the convection desorber is arranged in the impact desorption tank; the horizontal pipe of the convection pipe is fixedly connected with the impact desorption tank coaxially, and the vertical pipe of the convection pipe is arranged at the lower end of the reaction mechanism.

2. The desulfurizing liquid desorption cooling tower according to claim 1, wherein: the reaction mechanism comprises a mixing cooling bin, a mixing blade and a desulphurization powder funnel, wherein the mixing blade and the mixing cooling bin are coaxially and rotatably arranged through a rotating shaft, and the mixing blade is arranged inside the mixing cooling bin; the desulfurizing powder funnel is fixedly arranged on the upper part of the second end of the mixed cooling bin and is communicated with the mixed cooling bin.

3. The desulfurizing liquid desorption cooling tower according to claim 1, wherein: the movable type sedimentation basin is characterized by further comprising a sliding mechanism, the sliding mechanism comprises a fixed support, a sliding track, a drawing-off plate and a rotating bearing, the lower end of the fixed support is fixedly installed on the installation bottom plate, an inclined surface is arranged at the upper end of the fixed support, the sliding track is arranged at the upper end of the fixed support and is parallel to the inclined surface of the fixed support, the drawing-off plate is slidably installed between the floating collecting box and the sedimentation basin, the rotating bearing is installed on the side face of the first end of the drawing-off plate, the rotating bearing is slidably installed in the sliding track, and the floating collecting box is driven to move up and down on the supporting rod to draw off the plate to slide in the sliding track.

4. The desulfurizing liquid desorption cooling tower according to claim 1, wherein: the sedimentation device also comprises a discharge nozzle, a discharge baffle, a baffle rack, a rotating gear, a driving rack, an adsorption magnet and a collection box, wherein the discharge nozzle is arranged on the side surface of the floating collection box; the two sides of the discharging baffle are provided with sliding rails, the discharging baffle is vertically and slidably arranged on the two sides of the discharging nozzle through the sliding rails, the baffle rack is fixedly arranged on the first side of the discharging baffle, the rotating gear is rotatably arranged on the side surface of the floating collecting box, the rotating gear and the discharging nozzle are arranged on the same side, and the baffle rack and the rotating gear are meshed and arranged to form matching; the lower end of the driving rack is fixedly arranged on a mounting rod arranged at the lower end of the lower sedimentation tank, the driving rack is upwards matched with a sliding groove arranged on the side surface of the floating collection box, the driving rack is meshed with the rotating gear to be mounted to form matching, the lower sedimentation tank moves downwards, the driving rack drives the discharge baffle to move upwards, and an opening arranged in the floating collection box is opened; the collecting box is arranged on the mounting bottom plate and is arranged right opposite to the discharging nozzle; the lower extreme in sedimentation tank be provided with the sliding tray, adsorption magnet slidable mounting is in the sliding tray, adsorption magnet slides in the sliding tray and controls the lower extreme of sedimentation tank and opens and shuts down.

5. The desulfurizing liquid desorption cooling tower according to claim 1, wherein: the steam power mechanism comprises a steam power cover, steam impeller blades, a steam discharge pipe, a power belt wheel, a power belt and a driven belt wheel, the power belt wheel is rotatably mounted on a fixed shaft arranged on the side surface of the first end of the steam box, the first end of the steam power cover is fixedly connected with the side surface of the first end of the steam box, the steam impeller blades are arranged in the steam power cover, the steam impeller blades are fixedly connected with the power belt wheel coaxially, the driven belt wheel is fixedly connected with the outer end shaft of the first end of the mixing blade coaxially, the power belt is sleeved on the power belt wheel and the driven belt wheel, the steam impeller blades rotate to drive the power belt wheel to rotate, and the driven belt wheel is rotated through the transmission effect of the power belt; the lower end of the steam discharge pipe is fixedly arranged at the upper part of the second end of the steam power cover, and the steam discharge pipe is communicated with the steam power cover.

6. The desulfurizing liquid desorption cooling tower according to claim 1, wherein: still include steam pipe, steam cover, the lower extreme fixed mounting of steam cover in the upper end of steam chest, steam cover and steam chest intercommunication, the first end of steam pipe be connected with the upper end of steam cover, the second end of steam pipe is connected with steam power unit's first end, the first end upper end fixed mounting of steam pipe and steam power cover, the steam pipe switches on with steam power cover.

7. The desulfurizing liquid desorption cooling tower according to claim 1, wherein: the stock solution extracting mechanism comprises a mixing bearing, a mixing rotating shaft, a large gear, a small gear, an extracting pump shell, a pump body impeller and an input pipe, wherein the mixing bearing is arranged on the side surface of the second end of the mixing cooling bin, the second end shaft of the mixing blade is fixedly arranged on the inner side of the mixing bearing, the first end of the mixing rotating shaft is fixedly arranged on the outer side of the mixing bearing, the mixing rotating shaft and the second end shaft of the mixing blade are fixedly connected with the same axis through the mixing bearing, the large gear is arranged on the second end of the mixing rotating shaft, and the large gear and the mixing rotating shaft are fixedly connected with the same axis; the extraction pump shell is connected with the lower end of the stock solution tower tank through an extraction pipeline, and the extraction pipeline is communicated with the extraction pump shell; the pump body impeller is arranged in the pump extracting case, a pinion is arranged on an outer end shaft of the pump body impeller, the pinion is meshed with a bull gear to form fit, and the bull gear rotates to drive the pinion to drive the pump body impeller to rotate; the first end of the input pipe is fixedly connected with the side end of the extraction pump shell, the second end of the input pipe is connected with the side surface of the second end of the mixed cooling bin, the extraction pump shell and the mixed cooling bin are communicated through the input pipe, the pump body impeller rotates to reduce the pressure in the extraction pump shell, and the liquid in the stock solution tower tank flows into the extraction pump shell through the extraction pipeline and then flows into the mixed cooling bin through the input pipe.

8. The desulfurizing liquid desorption cooling tower according to claim 1, wherein: the upper end of steam chest be provided with the exhaust hole, the release of realization to steam chest internal pressure is opened in the exhaust hole.

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