CN217246971U - Quick quiet heavy knockout drum device of chlorophyll concentrate - Google Patents

Abstract

The utility model relates to the technical field of static sedimentation separation, in particular to a quick static sedimentation separation tank device for chlorophyll concentrates, which improves the circulation effect of cooling water in heat conduction pipes, improves the cooling effect of a plurality of groups of heat conduction pipes on the chlorophyll concentrates in an inner container, reduces the damage to chlorophyll concentrate molecules and improves the practicability of the separation tank device; including the cooling tank, the water change valve, the inner bag, collection device, the feed inlet, arrange the material pipe, arrange the material valve, two sets of circulation case, multiunit heat pipe and immersible pump, cooling tank upper portion is provided with the air vent, the water change valve intercommunication sets up in the cooling tank lower part, the inner bag sets up inside the cooling tank, collection device and inner bag upper portion intercommunication, collection device is used for collecting chlorophyll concentrate in the inner bag, the feed inlet intercommunication sets up on the inner bag top, it sets up in the inner bag bottom to arrange the material pipe intercommunication, and arrange the material pipe bottom and stretch out the cooling tank outside, arrange the material valve intercommunication and set up on arranging the material pipe, two sets of circulation case are installed respectively about the cooling tank inner wall.

Description

Quick quiet heavy knockout drum device of chlorophyll concentrate

Technical Field

The utility model relates to a technical field of quiet heavy separation especially relates to a quick quiet heavy knockout drum device of chlorophyll concentrate.

Background

Chlorophyll concentrate draws the back, will through the knockout drum layering of stewing, what be commonly used at present takes the intermediate layer to lead to the jar body of cooling water, in this period of time that stews, because can not stir, intermediate layer cooling water and chlorophyll concentrate heat exchange efficiency are lower, because chlorophyll is the paste, itself conducts heat also slowly, finally lead to chlorophyll to receive the temperature for a long time, molecular structure is destroyed, become the yellow brown by bright green, the quality obviously descends, consequently accelerate two-phase separation, reduce the in-tank temperature rapidly, become the important problem that each chlorophyll manufacturing enterprise faces, consequently, an improvement jar internal portion chlorophyll concentrate cooling rate is proposed, reduce the quiet heavy knockout drum device that chlorophyll concentrate molecular structure destroyed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an improve the circulation effect of cooling water in the heat-conducting pipe, improve the chlorophyll concentrate cooling effect of multiunit heat-conducting pipe in to the inner bag, reduce chlorophyll concentrate molecule and receive destruction, improve the quick quiet heavy knockout drum device of chlorophyll concentrate of the practicality of knockout drum device.

The utility model discloses a chlorophyll concentrate rapid settling separation tank device, which comprises a cooling tank, a water changing valve, an inner container, a collecting device, a feed inlet, a discharge pipe, a discharge valve, two sets of circulation boxes, a plurality of groups of heat pipes and a submersible pump, wherein the upper part of the cooling tank is provided with an air vent, the water changing valve is communicated with the lower part of the cooling tank, the inner container is arranged in the cooling tank, the collecting device is communicated with the upper part of the inner container, the collecting device is used for collecting the chlorophyll concentrate in the inner container, the feed inlet is communicated with the top end of the inner container, the discharge pipe is communicated with the bottom end of the inner container, the bottom end of the discharge pipe extends out of the cooling tank, the discharge valve is communicated with the discharge pipe, the two sets of circulation boxes are respectively arranged at the left part and the right part of the inner side wall of the cooling tank, the left end and the right end of the plurality of groups are respectively communicated with the two sets of circulation boxes, the middle parts of the plurality of the groups of the heat pipes all pass through the inner container, and the middle parts of the plurality of the groups of the heat pipes are arranged in an S shape, the submersible pump is arranged on the inner side wall of the cooling tank, the input end of the submersible pump is communicated with the inside of the cooling tank, the output end of the submersible pump is communicated with the second group of circulation boxes, and the bottom end of the first group of circulation boxes is communicated with the inside of the cooling tank; injecting cooling water into the cooling tank through the water changing valve, immersing the inner container in the cooling water, putting the chlorophyll concentrate into the inner container through the feed inlet, the chlorophyll concentrate is cooled by the cooling water through the heat conduction of the inner container to the cooling water, the cooling water in the cooling tank is extracted by opening the submersible pump, the extracted cooling water is conveyed into a plurality of groups of heat-conducting pipes through the second group of circulation boxes, and then the cooling water is conveyed to the first group of circulation boxes through the plurality of groups of heat-conducting pipes, the cooling water is discharged into the cooling tank by the first group of circulating tanks in a backflow manner, so that the circulating effect of the cooling water in the heat conducting pipes is improved, the cooling effect of the plurality of groups of heat conducting pipes on the chlorophyll concentrate in the liner is improved, through setting up multiunit heat pipe middle part into "S" shape, further improve multiunit heat pipe and receive destruction, improve the practicality of separator device to chlorophyll concentrate cooling effect, reduce chlorophyll concentrate molecule.

Preferably, the collecting device comprises a first pump body, a storage tank, a partition plate, an observation tank, an observation window and a second pump body, wherein the first pump body is arranged at the top end of the inner container, a first connecting pipe is arranged at the input end of the first pump body in a communicating manner, the input end of the first connecting pipe extends into the upper part of the inner container, a second connecting pipe is arranged at the output end of the first pump body in a communicating manner, discharge valves are respectively arranged at the left side and the right side of the storage tank, the partition plate is arranged in the middle of the inner side wall of the storage tank, the bottom end of the observation tank is connected with the top end of the storage tank, the output end of the observation tank is communicated with the storage tank at the left side of the partition plate, the input end of the observation tank is communicated with the output end of the second connecting pipe, the observation window is arranged on the outer side wall of the observation tank, the observation window is communicated with the interior of the observation tank, the second pump body is arranged at the top end of the storage tank, the output end of the second pump body is communicated with a third connecting pipe, the input end of the third connecting pipe is communicated with the bottom end of the discharge pipe; after the chlorophyll concentrate in the inner bag deposits the layering, at first open the first pump body and absorb upper material in the inner bag through first connecting pipe, the upper material of absorption is carried to bin left part through the second connecting pipe, the second connecting pipe passes inside the observation box to upper material transportation in-process, observe the upper material of absorption through the observation window, thereby be convenient for inspect the quality of upper material, later open row material valve, make the lower floor's material in the inner bag discharge downwards through arranging the material pipe, open the second pump body and absorb the lower floor's material that row material pipe discharged through the third connecting pipe, make the lower floor's material carry to the bin right part, improve the convenience that different material separation stored, improve device's practicality.

Preferably, the cooling tank also comprises a plurality of groups of motors, a plurality of groups of stirring paddles and a plurality of groups of sealing fillers, wherein the plurality of groups of motors are all arranged at the bottom end of the cooling tank, the top ends of the plurality of groups of stirring paddles are respectively rotatably arranged at the bottom end of the inner container through bearings, the bottom ends of the plurality of groups of stirring paddles are respectively rotatably arranged at the bottom end of the inner side wall of the cooling tank through bearings, the plurality of groups of motors are respectively concentrically connected with the bottom ends of the plurality of groups of stirring paddles, and the plurality of groups of sealing fillers are respectively arranged at the joint of the plurality of groups of stirring paddles and the inner side wall of the cooling tank; the multiple groups of motors are opened to drive the multiple groups of stirring paddles to rotate, so that the cooling water in the cooling tank is stirred after the multiple groups of stirring paddles rotate, the flowing effect of the cooling water is improved, and the cooling balance of the cooling water on the chlorophyll concentrate is improved.

Preferably, the cooling device further comprises a plurality of groups of third pump bodies and a plurality of groups of fourth connecting pipes, wherein the plurality of groups of third pump bodies are all arranged on the lower part of the outer side wall of the cooling tank, the input ends of the plurality of groups of third pump bodies are all communicated with the lower part of the cooling tank, the plurality of groups of fourth connecting pipes are respectively communicated and arranged on the output ends of the plurality of groups of third pump bodies, and the output ends of the plurality of groups of fourth connecting pipes are all communicated with the upper part of the cooling tank; through opening the water extraction of the multiunit third pump body with cooling tank lower part, make the multiunit third pump body carry water to cooling tank upper portion through multiunit fourth connecting pipe, improve the cooling water circulation effect in the cooling tank, improve the homogeneity of cooling water to the chlorophyll concentrate cooling.

Preferably, the cooling system further comprises refrigeration equipment and a plurality of groups of refrigeration pipes, wherein the output end of the refrigeration equipment is communicated with the plurality of groups of refrigeration pipes, and the plurality of groups of refrigeration pipes are all communicated and arranged in the cooling tank; the refrigeration equipment is opened to cool the multiple groups of refrigeration pipes, so that the multiple groups of refrigeration pipes continuously cool the cooling water, the cooling effect of the cooling water on the chlorophyll concentrate is improved, and the processing quality of the chlorophyll concentrate is improved.

Preferably, the heat exchanger also comprises a plurality of groups of radiating fins which are respectively sleeved on the outer side walls of the plurality of groups of heat conduction pipes; through setting up multiunit radiating fin to improve the radiating effect of multiunit heat pipe, and then improve multiunit heat pipe and to chlorophyll concentrate cooling efficiency, improve the practicality of separator device.

Compared with the prior art, the beneficial effects of the utility model are that: injecting cooling water into the cooling tank through the water changing valve, immersing the inner container in the cooling water, putting the chlorophyll concentrate into the inner container through the feed inlet, the chlorophyll concentrate is cooled by the cooling water through the heat conduction of the inner container to the cooling water, the cooling water in the cooling tank is extracted by opening the submersible pump, the extracted cooling water is conveyed into a plurality of groups of heat-conducting pipes through the first group of circulation boxes, and then the cooling water is conveyed to the second group of circulation boxes through the plurality of groups of heat-conducting pipes, the cooling water is discharged into the cooling tank by the second group of circulating tanks in a backflow manner, so that the circulating effect of the cooling water in the heat conducting pipes is improved, the cooling effect of the plurality of groups of heat conducting pipes on the chlorophyll concentrate in the liner is improved, through setting up multiunit heat pipe middle part into "S" shape, further improve multiunit heat pipe and receive destruction, improve the practicality of separator device to chlorophyll concentrate cooling effect, reduce chlorophyll concentrate molecule.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of a partial structure of the cooling tank connected to the inner container;

FIG. 3 is a partial schematic view of the connection of the motor to the paddle, etc.;

FIG. 4 is a partial structural view showing the connection of the circulation tank to a heat pipe or the like;

FIG. 5 is a schematic view of a part of the structure of the observation box on the axis side connected to a second connection pipe;

in the drawings, the reference numbers: 1. a cooling tank; 2. a water change valve; 3. an inner container; 4. a feed inlet; 5. a discharge pipe; 6. a discharge valve; 7. a circulation box; 8. a heat conducting pipe; 9. a submersible pump; 10. a first pump body; 11. a first connecting pipe; 12. a second connection pipe; 13. a storage box; 14. a partition plate; 15. an observation box; 16. an observation window; 17. a second pump body; 18. a third connecting pipe; 19. a motor; 20. a stirring paddle; 21. sealing and filling; 22. a third pump body; 23. a fourth connecting pipe; 24. a refrigeration device; 25. a refrigeration pipe; 26. and (4) radiating fins.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The upper part of a cooling tank 1 is provided with an air vent, a water changing valve 2 is communicated and arranged at the lower part of the cooling tank 1, an inner container 3 is arranged inside the cooling tank 1, a feed inlet 4 is communicated and arranged at the top end of the inner container 3, a discharge pipe 5 is communicated and arranged at the bottom end of the inner container 3, the bottom end of the discharge pipe 5 extends out of the cooling tank 1, a discharge valve 6 is communicated and arranged on the discharge pipe 5, two groups of circulation boxes 7 are respectively arranged at the left part and the right part of the inner side wall of the cooling tank 1, the left end and the right end of a plurality of groups of heat conduction pipes 8 are respectively communicated with the inside of the two groups of circulation boxes 7, the middle parts of the plurality of groups of heat conduction pipes 8 penetrate through the inner container 3, the middle parts of the plurality of groups of heat conduction pipes 8 are respectively arranged in an S shape, a submersible pump 9 is arranged on the inner side wall of the cooling tank 1, the input end of the submersible pump 9 is communicated with the cooling tank 1, the output end of the submersible pump 9 is communicated with the second group of circulation boxes 7, the bottom end of the first group of the circulation boxes 7 is communicated with the cooling tank 1, and the first group of the first pump 10 is arranged at the top end of the inner container 3, the input end of the first pump body 10 is communicated with a first connecting pipe 11, the input end of the first connecting pipe 11 extends into the upper part of the inner container 3, the output end of the first pump body 10 is communicated with a second connecting pipe 12, the left and right sides of the storage box 13 are respectively provided with a discharge valve, a partition 14 is arranged in the middle of the inner side wall of the storage box 13, the bottom end of an observation box 15 is connected with the top end of the storage box 13, the output end of the observation box 15 is communicated with the storage box 13 at the left side of the partition 14, the input end of the observation box 15 is communicated with the output end of the second connecting pipe 12, an observation window 16 is arranged on the outer side wall of the observation box 15, the observation window 16 is communicated with the interior of the observation box 15, a second pump body 17 is arranged at the top end of the storage box 13, the output end of the second pump body 17 is communicated with the interior of the storage box 13 at the right part of the partition 14, the input end of the second pump body 17 is communicated with a third connecting pipe 18, the input end of the third connecting pipe 18 is communicated with the bottom end of the discharge pipe 5, the multiple groups of motors 19 are all arranged at the bottom end of the cooling tank 1, the top ends of the multiple groups of stirring paddles 20 are respectively rotatably arranged at the bottom end of the inner container 3 through bearings, the bottom ends of the multiple groups of stirring paddles 20 are respectively rotatably arranged at the bottom end of the inner side wall of the cooling tank 1 through bearings, the multiple groups of motors 19 are respectively connected with the bottom ends of the multiple groups of stirring paddles 20 in a concentric manner, the multiple groups of sealing fillers 21 are respectively arranged at the joint of the multiple groups of stirring paddles 20 and the inner side wall of the cooling tank 1, the multiple groups of third pump bodies 22 are all arranged at the lower part of the outer side wall of the cooling tank 1, the input ends of the multiple groups of third pump bodies 22 are all communicated with the lower part of the cooling tank 1, the multiple groups of fourth connecting pipes 23 are respectively communicated with the output ends of the multiple groups of third pump bodies 22, the output ends of the multiple groups of fourth connecting pipes 23 are all communicated with the upper part of the cooling tank 1, the output ends of the refrigeration equipment 24 are communicated with the multiple groups of refrigeration pipes 25, and are all communicated with the interior of the cooling tank 1, the multiple groups of radiating fins 26 are respectively sleeved on the outer side walls of the multiple groups of heat conduction pipes 8; cooling water is injected into the cooling tank 1 through the water change valve 2, the inner container 3 is immersed into the cooling water, chlorophyll concentrate is placed into the inner container 3 through the feed inlet 4, the chlorophyll concentrate is cooled through the heat conduction of the inner container 3 to the cooling water, the cooling water in the cooling tank 1 is extracted through opening the submersible pump 9, the extracted cooling water is conveyed into the multiple groups of heat conduction pipes 8 through the second group of circulation boxes 7, then the cooling water is conveyed into the first group of circulation boxes 7 through the multiple groups of heat conduction pipes 8, the cooling water is discharged into the cooling tank 1 through the first group of circulation boxes 7 in a backflow mode, the circulation effect of the cooling water in the heat conduction pipes 8 is improved, the cooling effect of the multiple groups of heat conduction pipes 8 on the chlorophyll concentrate in the inner container 3 is improved, the middle of the multiple groups of heat conduction pipes 8 is arranged to be S-shaped, the cooling effect of the multiple groups of heat conduction pipes 8 on the chlorophyll concentrate is further improved, the molecules of the chlorophyll concentrate are prevented from being damaged, and the practicability of the separation tank device is improved.

As shown in fig. 1 to 5, the present invention relates to a chlorophyll concentrate rapid settling separation tank device, which is characterized in that when in operation, cooling water is injected into a cooling tank 1 through a water change valve 2, an inner container 3 is immersed in the cooling water, the chlorophyll concentrate is placed into the inner container 3 through a feed inlet 4, the cooling water is cooled by the cooling water through the heat conduction of the inner container 3 to the cooling water, the cooling water in the cooling tank 1 is extracted by opening a submersible pump 9, the extracted cooling water is conveyed into a plurality of groups of heat conduction pipes 8 through a first group of circulation box 7, then the cooling water is conveyed to a second group of circulation box 7 through the plurality of groups of heat conduction pipes 8, the cooling water is discharged into the cooling tank 1 through the second group of circulation box 7 in a backflow manner, then after the chlorophyll concentrate in the inner container 3 is settled and layered, at first, a first pump body 10 is opened to suck upper materials in the inner container 3 through a first connection pipe 11, the upper material of absorption passes through second connecting pipe 12 and carries to bin 13 left part, second connecting pipe 12 passes inside observation box 15 to upper material transportation in-process, observe the upper material of absorption through observation window 16, later open discharge valve 6, make the lower floor material in the inner bag 3 discharge downwards through arranging material pipe 5, open the second pump body 17 and absorb the lower floor material of arranging material pipe 5 and discharging through third connecting pipe 18, make the lower floor material carry to bin 13 right part, then cool down the cooling to multiunit refrigeration pipe 25 through opening refrigeration plant 24, thereby make multiunit refrigeration pipe 25 continuously cool down to the cooling water.

The utility model discloses the main function who realizes does: through the heat-conduction of inner bag 3 to the coolant water, make the coolant water cool down the chlorophyll concentrate, through opening the coolant water extraction of immersible pump 9 in with cooling tank 1, the coolant water of extraction carries to multiunit heat pipe 8 in through first group circulation case 7, later carry the coolant water to second group circulation case 7 through multiunit heat pipe 8, discharge the coolant water backward flow to cooling tank 1 in through second group circulation case 7, improve the circulation effect of coolant water in heat pipe 8, improve the chlorophyll concentrate cooling effect of multiunit heat pipe 8 in to inner bag 3, through setting up to "S" shape with multiunit heat pipe 8 middle part, further improve multiunit heat pipe 8 to chlorophyll concentrate cooling effect, it receives destruction to reduce chlorophyll concentrate molecule, improve the practicality of separator tank device.

The installation mode, the connection mode or the setting mode of the quick static settling separation tank device for chlorophyll concentrates of the utility model are common mechanical modes, and the quick static settling separation tank device can be implemented as long as the beneficial effects can be achieved; the utility model discloses a quick quiet heavy separator tank device's of chlorophyll concentrate immersible pump 9, the second pump body 17, motor 19, the third pump body 22, refrigeration plant 24 and refrigeration pipe 25 are purchase on the market, and this industry technical staff only need according to its subsidiary service instruction install and operate can, and need not the technical staff in the field and pay out creative work.

All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (6)

1. A quick static sedimentation separation tank device for chlorophyll concentrates is characterized by comprising a cooling tank (1), a water changing valve (2), an inner container (3), a collecting device, a feed inlet (4), a discharge pipe (5), a discharge valve (6), two groups of circulating boxes (7), a plurality of groups of heat conduction pipes (8) and a submersible pump (9), wherein the upper part of the cooling tank (1) is provided with an air vent, the water changing valve (2) is communicated and arranged at the lower part of the cooling tank (1), the inner container (3) is arranged inside the cooling tank (1), the collecting device is communicated with the upper part of the inner container (3), the collecting device is used for collecting the chlorophyll concentrates in the inner container (3), the feed inlet (4) is communicated and arranged at the top end of the inner container (3), the discharge pipe (5) is communicated and arranged at the bottom end of the inner container (3), the bottom end of the discharge pipe (5) extends out of the cooling tank (1), the discharge valve (6) is communicated and arranged on the discharge pipe (5), two parts about cooling tank (1) inside wall are installed respectively to two sets of circulation case (7), both ends communicate in with two sets of circulation case (7) respectively about multiunit heat pipe (8), multiunit heat pipe (8) middle part all passes in inner bag (3), and the middle part of multiunit heat pipe (8) all sets up to "S" shape, immersible pump (9) are installed in cooling tank (1) inside wall, intercommunication in immersible pump (9) input and cooling tank (1), immersible pump (9) output and second group circulation case (7) intercommunication, communicate with each other in first group circulation case (7) bottom and the cooling tank (1).

2. The quick-settling separation tank device for chlorophyll concentrates according to claim 1, wherein the collection device comprises a first pump body (10), a storage tank (13), a partition plate (14), an observation tank (15), an observation window (16) and a second pump body (17), the first pump body (10) is installed at the top end of the inner container (3), the input end of the first pump body (10) is communicated with a first connecting pipe (11), the input end of the first connecting pipe (11) extends into the upper part of the inner container (3), the output end of the first pump body (10) is communicated with a second connecting pipe (12), the left side and the right side of the storage tank (13) are respectively provided with a discharge valve, the partition plate (14) is installed in the middle part of the inner side wall of the storage tank (13), the bottom end of the observation tank (15) is connected with the top end of the storage tank (13), the output end of the observation tank (15) is communicated with the storage tank (13) at the left side of the partition plate (14), the input end of the observation box (15) is communicated with the output end of the second connecting pipe (12), the observation window (16) is arranged on the outer side wall of the observation box (15), the observation window (16) is communicated with the inside of the observation box (15), the second pump body (17) is arranged at the top end of the storage box (13), the output end of the second pump body (17) is communicated with the inside of the storage box (13) at the right part of the partition plate (14), the input end of the second pump body (17) is communicated with the third connecting pipe (18), and the input end of the third connecting pipe (18) is communicated with the bottom end of the discharge pipe (5).

3. The quick settling separation tank device for chlorophyll concentrates according to claim 1, further comprising a plurality of sets of motors (19), a plurality of sets of paddles (20) and a plurality of sets of sealing fillers (21), wherein the plurality of sets of motors (19) are all installed at the bottom end of the cooling tank (1), the top ends of the plurality of sets of paddles (20) are respectively installed at the bottom end of the inner container (3) through rotation of bearings, the bottom ends of the plurality of sets of paddles (20) are respectively installed at the bottom end of the inner side wall of the cooling tank (1) through rotation of bearings, and the plurality of sets of motors (19) are respectively concentrically connected with the bottom ends of the plurality of sets of paddles (20), and the plurality of sets of sealing fillers (21) are respectively arranged at the junction between the plurality of sets of paddles (20) and the inner side wall of the cooling tank (1).

4. The quick settling separation tank device for chlorophyll concentrates according to claim 1, further comprising a plurality of sets of third pump bodies (22) and a plurality of sets of fourth connecting pipes (23), wherein the plurality of sets of third pump bodies (22) are installed at the lower portion of the outer sidewall of the cooling tank (1), the input ends of the plurality of sets of third pump bodies (22) are communicated with the lower portion of the cooling tank (1), the plurality of sets of fourth connecting pipes (23) are respectively communicated with the output ends of the plurality of sets of third pump bodies (22), and the output ends of the plurality of sets of fourth connecting pipes (23) are communicated with the upper portion of the cooling tank (1).

5. The quick settling separation tank device for chlorophyll concentrates according to claim 1, further comprising a refrigeration device (24) and a plurality of sets of refrigeration tubes (25), wherein an output end of the refrigeration device (24) is communicated with the plurality of sets of refrigeration tubes (25), and the plurality of sets of refrigeration tubes (25) are all communicated and arranged inside the cooling tank (1).

6. The quick settling separation tank device for chlorophyll concentrates according to claim 1, further comprising a plurality of sets of heat dissipating fins (26), wherein the plurality of sets of heat dissipating fins (26) are respectively sleeved on the outer sidewalls of the plurality of sets of heat conducting pipes (8).

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