CN116585755B - Clarifying storage tank for ammonia water production - Google Patents

Abstract

The invention relates to ammonia water clarifying equipment, in particular to a clarifying storage tank for ammonia water production. The invention provides the clarifying storage tank for the ammonia water production, which has higher efficiency and is convenient for cleaning the tar residues. The invention provides a clarifying storage tank for ammonia water production, which comprises a base, a cylinder, a sealing cover, observation plates, a liquid inlet mechanism and a separation mechanism, wherein the top of the base is connected with the cylinder, the top of the cylinder is connected with the sealing cover in a detachable connection mode, two observation plates are arranged on the cylinder so as to observe materials on the inner wall of the cylinder, the cylinder is provided with the liquid inlet mechanism for adding liquid into the cylinder, and the cylinder is internally provided with the separation mechanism for separating tar and ammonia water. When the device is operated, water can be added into the cylinder, ammonia water floats to the feeding cylinder through the characteristic of low ammonia water density, ammonia water is collected through the feeding cylinder, and ammonia water and tar can be separated, so that the separation efficiency is improved.

Description

Clarifying storage tank for ammonia water production

Technical Field

The invention relates to ammonia water clarifying equipment, in particular to a clarifying storage tank for ammonia water production.

Background

In the process of ammonia water production, the ammonia water needs to be clarified, solid particles such as tar and tar residue in the ammonia water are separated from the ammonia water, the tar can be used as a chemical raw material, and the ammonia water can be continuously put into use.

At present, the mode of clarifying ammonia water is generally to adopt the mode of precipitation to clarify, and like the ammonia water clarifying tank disclosed in patent publication No. CN105413257B, its whole is a box, through long-time deposit to realize the separation of ammonia water and inside tar and tar sediment, overall efficiency is lower, and the tar sediment after the separation also needs manual operation to carry out the shovel clearance when the clearance simultaneously, and is comparatively inconvenient when the clearance.

Disclosure of Invention

In order to overcome the defects that the existing method is low in efficiency and the separated tar residues are inconvenient to clean by manual shoveling through long-time deposition, the invention provides the clear storage tank for the ammonia water production, which is higher in efficiency and convenient for cleaning the tar residues.

The technical proposal is as follows: the utility model provides a clarified storage tank is used in aqueous ammonia production, including base, barrel, closing cap, observation board, feed liquor mechanism and separating mechanism, the base top is connected with the barrel, and the barrel top is connected with the closing cap through the mode of detachable connection, installs two observation boards on the barrel to observe the material of barrel inner wall, be equipped with on the barrel and be used for adding the feed liquor mechanism of liquid in the barrel, be equipped with in the barrel and be used for the separating mechanism with tar and aqueous ammonia separation.

Further, the feed liquor mechanism is including feed cylinder, back flow, water pump one, intercommunication framework and screen cloth, is connected with the feed cylinder on the barrel, and the intercommunication has the intercommunication framework on the feed cylinder, and the intercommunication framework communicates with the barrel, and the feed cylinder internal connection has the screen cloth for blockking the bulk impurity in the liquid, the intercommunication has the back flow between feed cylinder upper portion and the barrel lower part, and water pump one is installed to the back flow lower part.

Further, separating mechanism is including separating section of thick bamboo, the collecting vessel, the baffle, send liquid pipe and water pump two, lower part connection has and is used for storing tar and residue and separating the section of thick bamboo in the barrel, separate the barrel lower part and separate a liquid storehouse body, the intercommunication has the collecting vessel in the middle of the closing cap bottom, the collecting vessel keeps away from the feed liquor hole that one side of intercommunication framework evenly spaced apart and is equipped with and supplies the aqueous ammonia to get into, the collecting vessel both sides all are connected with the baffle, the baffle contacts with the barrel, the baffle can separate barrel upper portion both sides, be provided with in the collecting vessel and send liquid pipe, send liquid pipe to wear out the closing cap and be connected with the barrel lower part, so that send liquid pipe and liquid storehouse body intercommunication, send liquid pipe department to install water pump two.

Further, the middle upper part of the cylinder body is communicated with a tar liquid outlet pipe, the tar liquid outlet pipe is positioned above the separation cylinder, the lower part of the liquid storage bin body of the cylinder body is communicated with an ammonia liquid outlet pipe, and electromagnetic valves are arranged at the tar liquid outlet pipe and the ammonia liquid outlet pipe.

Further, still including gathering together the mechanism, gather together the mechanism and including pivot, crown gear, pushing away the flitch, helical blade, drive gear and elastic component one, separation section of thick bamboo lower part rotation is connected with the pivot, pivot one side is connected with helical blade through one-way clutch, helical blade stretches into in the back flow, the pivot opposite side is connected with drive gear, separation section of thick bamboo lower part rotation is connected with two crown gears, two crown gears mesh with drive gear both sides respectively, all be connected with on two crown gears and push away the flitch, push away flitch bottom and barrel bottom laminating, be connected with elastic component one between drive gear and the separation section of thick bamboo.

Further, still including slowing down the mechanism, it is connected with the connecting plate including connecting plate, baffle and elastic component two to slow down the mechanism to be close to one side of intercommunication framework in the barrel, set up flutedly on the connecting plate, intercommunication framework intercommunication to recess department, recess department evenly spaced is equipped with multichannel circulation passageway, evenly spaced is equipped with the multiunit liquid outlet on the connecting plate, the group number of liquid outlet is unanimous with the quantity of circulation passageway, a plurality of liquid outlet and the same circulation passageway intercommunication of same group, the intraductal slidingtype baffle that is connected with of circulation, the baffle is located liquid outlet below, be connected with elastic component two between baffle and the intraductal bottom of circulation.

Further, the device also comprises a spiral feeding pipe, wherein the liquid feeding pipe is communicated with the spiral feeding pipe, and the spiral feeding pipe is wound on the outer side of the separation cylinder.

Further, the device also comprises a cross connecting frame and universal wheels, wherein the bottom of the base is connected with the cross connecting frame, and four universal wheels are arranged at the bottom of the cross connecting frame.

Compared with the prior art, the invention has the following advantages: 1. when the device is operated, water can be added into the cylinder, ammonia water floats to the feeding cylinder through the characteristic of low ammonia water density, ammonia water is collected through the feeding cylinder, and ammonia water and tar can be separated, so that the separation efficiency is improved.

2. The invention is provided with the tar liquid outlet pipe and the ammonia liquid outlet pipe for discharging ammonia water and tar respectively, is more convenient in cleaning, and is provided with the screw cap at the same time, so that impurities such as tar residues can be discharged by opening the screw cap.

3. When the device is in operation, the separated ammonia water sediment can be refluxed through the operation of the first water pump and the reflux pipe to be treated again, and meanwhile, the sediment can be stirred through the pushing plate when in treatment, so that the operation of the first water pump is facilitated.

Drawings

FIG. 1 is a schematic diagram of the present invention.

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

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is a schematic view of a liquid feeding mechanism of the present invention.

Fig. 5 is a first schematic view of the divider mechanism of the present invention.

FIG. 6 is a second schematic view of the divider mechanism of the present invention.

FIG. 7 is a schematic view of a separator mechanism and a gathering mechanism of the present invention.

Fig. 8 is a first schematic view of the gathering mechanism of the present invention.

Fig. 9 is an enlarged view of portion a of fig. 8 in accordance with the present invention.

Fig. 10 is an enlarged view of portion B of fig. 8 in accordance with the present invention.

FIG. 11 is a second schematic view of the gathering mechanism of the present invention.

FIG. 12 is a schematic view of the gathering mechanism of the present invention after operation.

Fig. 13 is a first schematic view of the mitigation mechanism of the present invention.

Fig. 14 is a second schematic view of the mitigation mechanism of the present invention.

Fig. 15 is a third schematic view of a mitigation mechanism of the present invention.

Fig. 16 is a cross-sectional view of a mitigation mechanism of the invention.

Part names and serial numbers in the figure: 1. base, 2, cylinder, 3, cover, 4, observation plate, 51, feeding cylinder, 52, return pipe, 53, water pump one, 54, communication frame, 55, screen, 61, separating cylinder, 62, collecting cylinder, 63, baffle, 64, liquid feeding pipe, 65, water pump two, 66, screw cap, 71, rotating shaft, 72, crown gear, 73, pushing plate, 74, helical blade, 75, driving gear, 76, first elastic piece, 81, connecting plate, 82, circulation channel, 83, liquid outlet hole, 84, baffle, 85, second elastic piece, 9, helical feeding pipe, 10, cross connecting frame, 11 and universal wheel.

Detailed Description

The invention is described in detail below with reference to the drawings and the specific embodiments.

Example 1

The utility model provides a clarified storage tank is used in aqueous ammonia production, as shown in fig. 1-6, including base 1, barrel 2, closing cap 3, observation board 4, feed liquor mechanism and separating mechanism, base 1 top is connected with barrel 2, and barrel 2 top is connected with closing cap 3 through detachable connection's mode, and barrel 2 leading flank is all installed and is observed board 4 from top to bottom both sides, so that observe the material of barrel 2 inner wall, be equipped with on barrel 2 and be used for adding the feed liquor mechanism of liquid in barrel 2, be equipped with the separating mechanism that is used for tar and aqueous ammonia separation in the barrel 2.

As shown in fig. 2-4, the liquid feeding mechanism comprises a feeding cylinder 51, a return pipe 52, a first water pump 53, a communicating frame 54 and a screen 55, wherein the feeding cylinder 51 is connected to the upper left side of the cylinder 2, the communicating frame 54 is communicated to the upper right side of the feeding cylinder 51, the communicating frame 54 is communicated to the upper left side of the cylinder 2, the lower part of the feeding cylinder 51 is a liquid inlet end, liquid can be added into the feeding cylinder 51 through the liquid inlet end, the screen 55 is connected to the feeding cylinder 51, the screen 55 is located above the liquid inlet end and used for blocking large impurities in the liquid, the bottom of the feeding cylinder 51 is a discharge end, a valve is arranged at the discharge end, the return pipe 52 is communicated between the upper part of the feeding cylinder 51 and the lower part of the cylinder 2, and the first water pump 53 is arranged below the return pipe 52.

As shown in fig. 3, 5 and 6, the separation mechanism comprises a separation barrel 61, a collection barrel 62, a partition 63, a liquid delivery pipe 64 and a water pump two 65, wherein the separation barrel 61 is connected to the lower part of the barrel 2, the separation barrel 61 is used for storing tar and residues, the lower part of the barrel 2 is separated by the separation barrel 61 by a liquid storage bin body, the liquid storage bin body is used for storing ammonia water, the middle of the bottom of the sealing cover 3 is communicated with the collection barrel 62, the collection barrel 62 is positioned above the separation barrel 61, liquid inlet holes are uniformly formed in the right side of the collection barrel 62 at intervals so that ammonia water enters the collection barrel 62, the front side and the rear side of the collection barrel 62 are connected with the partition 63, the partition 63 is in contact with the barrel 2, the partition 63 can separate the left side and the right side of the upper part of the barrel 2, the influence of the upper part of the left side of the barrel 2 on the liquid on the right side of the barrel 2 during liquid feeding can be relieved, through holes are uniformly formed in the upper part of the partition 63 so that the liquid on the two sides of the upper part of the barrel 2 can be circulated, the liquid delivery pipe 64 is arranged in the collection barrel 62, the liquid delivery pipe 64 penetrates out of the sealing cover 3 to the lower part of the barrel 2, the sealing cover 3 is connected with the lower part of the barrel 2, so that the liquid delivery pipe 64 is communicated with the water pump 64.

The middle upper part of the cylinder body 2 is communicated with a tar liquid outlet pipe for discharging tar, the tar liquid outlet pipe is positioned above the separation cylinder 61, the lower part of the liquid storage bin body of the cylinder body 2 is communicated with an ammonia liquid outlet pipe for discharging ammonia, and electromagnetic valves are arranged at the tar liquid outlet pipe and the ammonia liquid outlet pipe so as to control the discharging state of tar and ammonia.

When the ammonia water needs to be clarified, the clarifier can be used, when the clarifier is used, firstly, ammonia water to be clarified is injected into the feeding cylinder 51 through the liquid inlet end at the lower part of the feeding cylinder 51, the ammonia water to be clarified is extruded upwards along with the increase of materials in the feeding cylinder 51, and large impurities doped in the ammonia water are blocked by the screen 55, so that the ammonia water to be clarified enters the cylinder 2, meanwhile, the ammonia water to be clarified enters the separating cylinder 61, as the density of ammonia water is smaller than that of tar doped in the ammonia water, the ammonia water floats upwards to the liquid inlet position in the collecting cylinder 62, so that the ammonia water can enter the collecting cylinder 62 through the liquid inlet, the ammonia water is collected through the collecting cylinder 62, and tar remains outside the collecting cylinder 62 and in the separating cylinder 61, the second water pump 65 can be turned on to convey the ammonia water in the collecting cylinder 62 to the position of the liquid storage bin body through the liquid feeding pipe 64 for storage of the ammonia water, so that the device can be used for separating the ammonia water from the tar to achieve the effect of clarifying the ammonia water, when the ammonia water or the tar is required to be discharged, the electromagnetic valves at the positions of the tar liquid outlet pipe and the ammonia water liquid outlet pipe can be opened for discharging the ammonia water and the tar, the screw cap 66 can be detached at the same time, the solid impurities and part of the tar remained in the separating cylinder 61 can be discharged, the collecting container can be arranged for collecting before discharging, after the ammonia water in the liquid storage bin body is discharged, part of the ammonia water with sediment possibly exists at the bottom of the liquid storage bin body, at the moment, the first water pump 53 can be controlled to operate to pump the sediment at the bottom of the liquid storage bin body into the feeding cylinder 51 through the return pipe 52 for treatment again, and in the actual operation process, a valve at the discharge end of the bottom of the feed cylinder 51 may be opened to discharge bulk impurities.

Example two

On the basis of the first embodiment, as shown in fig. 7-12, the device further comprises a gathering mechanism, the gathering mechanism comprises a rotating shaft 71, crown gears 72, a pushing plate 73, spiral blades 74, a driving gear 75 and a first elastic member 76, the rotating shaft 71 is rotatably connected to the left side of the outer lower portion of the separating cylinder 61, the spiral blades 74 are connected to the left side of the rotating shaft 71 through a one-way clutch, the spiral blades 74 extend into the return pipe 52 so that liquid circulation in the return pipe 52 can control the spiral blades 74 to rotate, the driving gear 75 is connected to the right side of the rotating shaft 71, the lower portion of the separating cylinder 61 is rotatably connected with two crown gears 72, toothed portions of the two crown gears 72 are opposite to each other, the toothed portions of the two crown gears 72 are respectively meshed with the upper side and the lower side of the driving gear 75, the pushing plate 73 is connected to the bottom of the pushing plate 73 and the bottom of the cylinder 2, the pushing plate 73 rotates to push materials in the cylinder 2, the driving gear 75 and the first elastic member 76 is connected between the driving gear 75 and the separating cylinder 61, and the first elastic member 76 is a scroll spring.

When the first water pump 53 pumps sediment in the liquid storage bin, the sediment circulates along the spiral vane 74 to drive the spiral vane 74 to rotate, the spiral vane 74 rotates to drive the pushing plate 73 to rotate through the rotating shaft 71, the driving gear 75 and the crown gear 72, the first elastic piece 76 deforms to rotate the pushing plate 73 to the state shown in fig. 12, the pushing plate 73 can push the sediment to move during rotation, so that the sediment can be conveniently pumped by the first water pump 53, and when the sediment is stopped to be pumped, the driving gear 75 reversely rotates under the action of the first elastic piece 76 to reset to drive the crown gear 72 and the pushing plate 73 to reset.

As shown in fig. 13-16, the device further comprises a slowing mechanism, the slowing mechanism comprises a connecting plate 81, a baffle 84 and a second elastic member 85, the left side wall in the cylinder 2 is connected with the connecting plate 81, the left side of the connecting plate 81 is provided with a groove, the communicating frame 54 is communicated to the groove, a plurality of circulation channels 82 are uniformly spaced apart from the groove, a plurality of groups of liquid outlet holes 83 are uniformly spaced apart from the right side of the connecting plate 81, the number of the groups of liquid outlet holes 83 is consistent with that of the circulation channels 82, the plurality of liquid outlet holes 83 of the same group are communicated with the same circulation channel 82, the liquid outlet holes 83 are communicated with the circulation channel 82, the baffle 84 is connected with the baffle 84 in a sliding manner in the circulation channel 82, and the baffle 84 is positioned below the liquid outlet holes 83, and the second elastic member 85 is connected between the baffle 84 and the inner bottom in the circulation channel 82.

When the liquid to be treated that adds in the initial time gets into barrel 2, can separate through circulation passageway 82 and play liquid hole 83 to slow down the dynamics of liquid impact when barrel 2 inside liquid, liquid also can strike baffle 84 when striking simultaneously, elastic component two 85 play the cushioning effect, thereby further slow down the dynamics of liquid impact, so that the dynamics of avoiding liquid impact when adding is too big, leads to the fluctuation of liquid in barrel 2 too big.

As shown in fig. 3, the device further comprises a spiral feeding pipe 9, the liquid feeding pipe 64 is communicated with the spiral feeding pipe 9, the spiral feeding pipe 9 is wound on the outer side of the separation barrel 61, the tail end of the spiral feeding pipe 9 is positioned at the lower part of the liquid storage bin body, when the liquid feeding pipe 64 is used for conveying ammonia water, the ammonia water can be conveyed to the lower part of the liquid storage bin body through the spiral feeding pipe 9, meanwhile, the ammonia water has a certain temperature, the temperature of the inner wall of the separation barrel 61 can be slightly increased, and tar supercooling caking in the separation barrel 61 is avoided.

As shown in fig. 2, the clarifying tank further comprises a cross connecting frame 10 and universal wheels 11, wherein the bottom of the base 1 is connected with the cross connecting frame 10, and four universal wheels 11 are arranged at the bottom of the cross connecting frame 10 so as to facilitate the integral movement of the clarifying tank.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the invention is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims (4)

1. The utility model provides a clarified storage tank for ammonia water production, a serial communication port, including base (1), barrel (2), closing cap (3), observation board (4), feed liquor mechanism and separating mechanism, base (1) top is connected with barrel (2), barrel (2) top is connected with closing cap (3) through detachable connection's mode, install two observation boards (4) on barrel (2) to observe the material of barrel (2) inner wall, be equipped with on barrel (2) and be used for adding the feed liquor mechanism of liquid in barrel (2), be equipped with the separating mechanism that is used for separating tar and aqueous ammonia in barrel (2); the liquid inlet mechanism comprises a feeding cylinder (51), a return pipe (52), a first water pump (53), a communicating frame body (54) and a screen (55), wherein the feeding cylinder (51) is connected to the cylinder body (2), the communicating frame body (54) is communicated to the feeding cylinder (51), the communicating frame body (54) is communicated with the cylinder body (2), the screen (55) is connected in the feeding cylinder (51) and used for blocking large impurities in liquid, the first water pump (53) is arranged between the upper part of the feeding cylinder (51) and the lower part of the cylinder body (2); the separating mechanism comprises a separating cylinder (61), a collecting cylinder (62), a partition plate (63), a liquid conveying pipe (64) and a water pump II (65), wherein the separating cylinder (61) used for storing tar and residues is connected to the inner lower part of the cylinder (2), the separating cylinder (61) separates the lower part of the cylinder (2) from a liquid storage bin body, the collecting cylinder (62) is communicated with the middle of the bottom of the sealing cover (3), the collecting cylinder (62) is positioned above the separating cylinder (61), one side, far away from the communicating frame body (54), of the collecting cylinder (62) is uniformly provided with liquid inlet holes for ammonia water to enter, the two sides of the collecting cylinder (62) are respectively connected with the partition plate (63), the partition plate (63) is in contact with the cylinder (2), the partition plate (63) can separate the two sides of the upper part of the cylinder (2), through holes are uniformly arranged at intervals on the upper part of the partition plate (63), the liquid conveying pipe (64) is arranged in the collecting cylinder (62), the liquid conveying pipe (64) penetrates out of the sealing cover (3) to be connected with the lower part of the cylinder (2), so that the liquid conveying pipe (64) is communicated with the liquid storage bin body, and the water pump II (65) is arranged at the position of the water pump II.

The middle upper part of the cylinder body (2) is communicated with a tar liquid outlet pipe, the tar liquid outlet pipe is positioned above the separation cylinder (61), the lower part of the liquid storage bin body of the cylinder body (2) is communicated with an ammonia liquid outlet pipe, and electromagnetic valves are arranged at the tar liquid outlet pipe and the ammonia liquid outlet pipe;

the automatic feeding device is characterized by further comprising a gathering mechanism, the gathering mechanism comprises a rotating shaft (71), crown gears (72), a pushing plate (73), spiral blades (74), a driving gear (75) and an elastic piece I (76), the rotating shaft (71) is rotatably connected to the lower portion of the separation barrel (61), one side of the rotating shaft (71) is connected with the spiral blades (74) through a one-way clutch, the spiral blades (74) extend into the backflow pipe (52), the driving gear (75) is connected to the other side of the rotating shaft (71), two crown gears (72) are rotatably connected to the lower portion of the separation barrel (61), the two crown gears (72) are respectively meshed with the two sides of the driving gear (75), the pushing plate (73) is connected to the two crown gears (72), the bottom of the pushing plate (73) is attached to the bottom of the barrel (2), and the elastic piece I (76) is connected between the driving gear (75) and the separation barrel (61).

2. The clarifying storage tank for producing ammonia water according to claim 1, further comprising a slowing mechanism, wherein the slowing mechanism comprises a connecting plate (81), a baffle plate (84) and a second elastic member (85), wherein one side, close to the communicating frame body (54), in the cylinder body (2) is connected with the connecting plate (81), grooves are formed in the connecting plate (81), the communicating frame body (54) is communicated to the grooves, a plurality of circulating channels (82) are uniformly spaced at the grooves, a plurality of groups of liquid outlet holes (83) are uniformly spaced on the connecting plate (81), the number of the groups of liquid outlet holes (83) is consistent with that of the circulating channels (82), the plurality of liquid outlet holes (83) in the same group are communicated with the same circulating channel (82), the baffle plate (84) is connected in the circulating channel (82) in a sliding mode, the baffle plate (84) is located below the liquid outlet holes (83), and the second elastic member (85) is connected between the baffle plate (84) and the inner bottom of the circulating channel (82).

3. The clarifying tank for producing ammonia water as defined in claim 1, further comprising a spiral feed pipe (9), wherein the feed pipe (64) is connected with the spiral feed pipe (9), and the spiral feed pipe (9) is wound on the outside of the partition cylinder (61).

4. The clarified storage tank for ammonia water production as claimed in claim 1, further comprising a cross connecting frame (10) and universal wheels (11), wherein the cross connecting frame (10) is connected to the bottom of the base (1), and four universal wheels (11) are mounted at the bottom of the cross connecting frame (10).