CN211215461U - Intelligent multifunctional methanol evaporation device - Google Patents

Intelligent multifunctional methanol evaporation device Download PDF

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Publication number
CN211215461U
CN211215461U CN201921948366.6U CN201921948366U CN211215461U CN 211215461 U CN211215461 U CN 211215461U CN 201921948366 U CN201921948366 U CN 201921948366U CN 211215461 U CN211215461 U CN 211215461U
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China
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pipe
evaporation tower
welded
evaporation
heating
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CN201921948366.6U
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张超
王广荣
王晓
李祥建
张红
朱孟琦
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Linyi Jinyimeng Biotechnology Co ltd
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Linyi Jinyimeng Biotechnology Co ltd
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Abstract

The utility model provides an intelligent multifunctional methanol evaporation device, which comprises an evaporation tower, supporting legs, a supporting disk, a liquid storage processing box structure, a blowing pipe frame structure, a heat exchanger, a heating spraying box structure, a demister, a superheat section, a gas outlet head, a filtering ring structure, a first backflow pipe, a circulating pump, a second backflow pipe, a PLC and a switch, wherein the supporting legs are welded around the lower surface of the evaporation tower; the supporting plate is welded at the lower end of the supporting leg; the liquid storage and treatment box structure is arranged at the lower side inside the evaporation tower; the blowing pipe frame structure is arranged at the middle lower part inside the evaporation tower; the heat exchanger is installed in the middle of the evaporation tower through bolts. The utility model has the advantages that: through the setting of heating spraying case structure, before spraying methanol liquid, can heat, and then add man-hour, this overheated section of cooperation has increased the effect of evaporation and the speed of work.

Description

Intelligent multifunctional methanol evaporation device
Technical Field
The utility model belongs to the technical field of the methyl alcohol evaporation, especially, relate to intelligent multi-functional methyl alcohol evaporation plant.
Background
At present, the production of formaldehyde by a silver method is mainly divided into two unit operations, namely an oxidation reaction unit, an absorption unit and an oxidation reaction unit are respectively completed by four devices, namely methanol evaporation, ternary gas heating, ternary gas filtering and oxidizer reaction, wherein the methanol evaporation is used as a relatively large energy consumption device of a formaldehyde device; at present, the first of two evaporation modes is a climbing film evaporator, steam is directly used as a heat source for methanol evaporation, the methanol evaporation temperature is controlled to be 60-80 ℃, the evaporation mode is mainly that steam energy consumption is high, the evaporation mode is not basically adopted in new domestic devices at present, the second evaporation mode is that air is bubbled and evaporated in a methanol solution, an external plate heat exchanger or a tubular heat exchanger with a large internal area is used for heat exchange and evaporation, the evaporation temperature is controlled to be 40-50 ℃, and a silver-process formaldehyde absorption unit can be effectively used for absorbing heat to be removed, so that the energy is saved.
The steam is saved and the circulating water of the absorption unit is saved.
However, the conventional methanol evaporation device has the problems that the evaporation speed of the device is slow, the effect is poor, the device does not have the functions of assisting air blowing and increasing the methanol rising amount, and the filtering is inconvenient when the air is discharged.
Therefore, the utility model is a very necessary intelligent multifunctional methanol evaporator.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides an intelligent multi-functional methyl alcohol evaporation plant to solve current methyl alcohol evaporation plant the device's evaporation rate slower and the effect is relatively poor, do not possess and play the supplementary function of blowing and increase the methanol uptake and be not convenient for carry out filterable problem when giving vent to anger. The intelligent multifunctional methanol evaporation device comprises an evaporation tower, supporting legs, a supporting disk, a liquid storage treatment box structure, a blowing pipe frame structure, a heat exchanger, a heating spraying box structure, a demister, a superheating section, a gas outlet head, a filtering ring structure, a first reflux pipe, a circulating pump, a second reflux pipe, a PLC (programmable logic controller) and a switch, wherein the supporting legs are welded around the lower surface of the evaporation tower; the supporting plate is welded at the lower end of the supporting leg; the liquid storage and treatment box structure is arranged at the lower side inside the evaporation tower; the blowing pipe frame structure is arranged at the middle lower part inside the evaporation tower; the heat exchanger is arranged in the middle of the evaporation tower through bolts; the heating spraying box structure is arranged in the middle of the left surface of the evaporation tower; the demister bolt is arranged at the middle upper part inside the evaporation tower; the bolt of the overheating section is arranged at the upper part inside the evaporation tower; the gas outlet head is welded at the upper end of the evaporation tower; the filter ring structure is arranged in the gas outlet head; one end of the first return pipe is connected with a flange of the liquid storage and treatment box structure, and the other end of the first return pipe is connected with a flange of the circulating pump; one end of the second return pipe is connected with a circulating pump flange, and the other end of the second return pipe is connected with a heating spraying box structure flange; the PLC bolt is arranged at the lower part of the front surface of the evaporation tower; the switch is embedded on the front surface of the PLC; the heating spray box structure comprises a transverse spray pipe, a longitudinal spray pipe, a spray head, a liquid delivery head, a delivery pump, a material suction pipe, a heating box, a heating pipe and an assembly head, wherein the transverse spray pipe is welded in the middle of the inside of the evaporation tower and is arranged at the upper end of the heat exchanger; the longitudinal spray pipes are respectively welded between the transverse spray pipes and the evaporation tower; the spray headers are respectively in threaded connection with the lower surfaces of the transverse spray pipes and the longitudinal spray pipes; one end of the infusion head is connected with a flange of the delivery pump, and the other end of the infusion head is welded with the left end of the transverse spray pipe; the conveying pump is mounted on the upper surface of the heating box through bolts; one end of the material suction pipe is connected with the front part of the delivery pump through a flange, and the other end of the material suction pipe is inserted into the heating box; the heating box is embedded in the middle of the left surface of the evaporation tower; the heating pipes are respectively embedded at the left side and the right side of the lower part in the heating box; the assembly head is welded at the upper left part of the heating box, and the left end of the assembly head is connected with the second return pipe through a flange.
Preferably, the blowing pipe frame structure comprises a fan, a processing box, an assembling plate, a processing net, a transverse blowing pipe, a longitudinal blowing pipe and a blowing head, wherein a fan bolt is arranged at the middle lower part of the right surface of the evaporation tower, and the lower end of the fan bolt is connected with an upper end flange of the processing box; the processing box is welded at the lower part of the right surface of the evaporation tower; the transverse blowing pipe is welded at the middle lower part of the inner wall of the evaporation tower, and the right end of the transverse blowing pipe is in threaded connection with the fan; the longitudinal blowpipe is welded between the transverse blowpipe and the evaporation tower; the blowing head is respectively in threaded connection with the upper surfaces of the transverse blowing pipe and the longitudinal blowing pipe.
Preferably, the liquid storage treatment tank structure comprises a storage tank, a first collecting block, a second collecting block, a conveying pipe, a sealing valve and a feeding pipe, wherein the storage tank is welded at the lower part of the inner wall of the evaporation tower; the first collecting block and the second collecting block are respectively welded on the left side and the right side of the lower part of the inner wall of the storage box; the conveying pipe is welded at the lower end of the storage box; the sealing valve is in threaded connection with the left lower part of the conveying pipe; the feeding pipe is welded at the left lower part of the evaporation tower.
Preferably, the filter ring structure comprises a dismounting ring, a ring cavity, a filter screen, a bag filter, a first supporting edge and a second supporting edge, and the dismounting ring is in threaded connection with the inside of the gas outlet head; the ring cavity is arranged inside the dismounting ring; the filter screen and the bag filter are respectively installed on the upper part and the lower part of the inner wall of the annular cavity through bolts; the first supporting edge and the second supporting edge are respectively welded on the left side and the right side of the inner wall of the air outlet head, and the upper parts of the first supporting edge and the second supporting edge are in contact with the dismounting ring.
Preferably, the heating box is communicated with the second return pipe through an assembly head, and a heating pipe is arranged below the inside of the heating box.
Preferably, the longitudinal spraying pipes at the front end and the rear end of the transverse spraying pipe are provided with a plurality of spraying pipes, and the lower surfaces of the longitudinal spraying pipes are respectively provided with a spraying head.
Preferably, the upper end of the delivery pump is communicated with the transverse spraying pipe through a delivery head, and the material suction pipe at the lower end is inserted into the heating box.
Preferably, a plurality of longitudinal blowpipes are arranged at the front and rear parts of the transverse blowpipe, and the upper parts of the longitudinal blowpipes are respectively provided with a blowing head.
Preferably, the number of the treatment nets is three, and the treatment nets are respectively provided with an activated carbon filter screen.
Preferably, the stainless steel handle is welded on the right side of the assembling plate, the assembling plate is mounted on the right surface of the processing box through bolts, and the processing net is mounted in the middle of the left surface of the assembling plate through bolts.
Preferably, a feed pipe is inserted into the left side of the interior of the storage box, and the feed pipe is an L-shaped steel pipe.
Preferably, the first collecting block and the second collecting block are respectively provided with an inclined upper side and a conveying pipe at the lower part of the inner side.
Preferably, the conveying pipe is an L-shaped steel pipe, and the lower left part of the conveying pipe is in threaded connection with a sealing valve.
Preferably, the filter screen and the bag filter are respectively arranged at the upper end of the evaporation tower.
Preferably, the lower part of the dismounting ring is respectively contacted with the first supporting edge and the second supporting edge.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses in, the heating cabinet pass through equipment head and second back flow intercommunication, the inside below of heating cabinet install the heating pipe, before spraying methanol liquid, can heat, and then add man-hour, this overheated section of cooperation has increased the effect of evaporation and the speed of work.
2. The utility model discloses in, horizontal shower longitudinal spray pipe at both ends is provided with a plurality ofly around, and the lower surface is provided with the shower head respectively, and then increased the area when spraying, and be convenient for use.
3. The utility model discloses in, delivery pump upper end communicate through infusion head and horizontal shower, and the inhaling of lower extreme material pipe inserts the heating cabinet in, be convenient for absorb the function of methanol liquid, and the reasonable transport and use of carrying on.
4. The utility model discloses in, horizontal blowing pipe around vertical blowing pipe of two parts be provided with a plurality ofly, and install respectively on upper portion and blow the wind head, can blow and increase the speed that sprays liquid and rise, also drive a large amount of spraying liquid with it simultaneously and rise, and then increased the effect of during operation.
5. The utility model discloses in, the processing net be provided with threely, and adopt the active carbon filter screen respectively, when admitting air, can filter thereupon, and then increased the cleanliness factor of air.
6. The utility model discloses in, equipment board right side welding have the stainless steel handle, equipment board bolt install on the right surface of handling the box, and the middle part bolt of equipment board left surface installs and handles the net, when using, be convenient for carry out the work of dismouting and change to handling the net.
7. The utility model discloses in, the inside left side of bin peg graft and have the inlet pipe, the inlet pipe adopt L type steel pipe, pour into methanol liquid and air into the bin through the inlet pipe respectively, and during the use, can make the air tentatively mix with methyl alcohol gas to rise, and then increase the effect of its methyl alcohol evaporation.
8. The utility model discloses in, first collection piece and second collect a piece upside and set up to the slope form respectively, and the inboard lower part is provided with the conveyer pipe, when carrying methyl alcohol liquid, the problem of a large amount of methyl alcohol liquid is remained easily in the corner department of having avoided this bin bottom.
9. The utility model discloses in, the conveyer pipe adopt L shaped steel pipe, and left lower part threaded connection has a seal valve, be convenient for seal and live and store the work of methanol-liquid.
10. The utility model discloses in, filter screen and bag filter set up respectively in the upper end of evaporation tower, when giving vent to anger, can tentatively carry out filterable function to gas, and increased the functionality.
11. The utility model discloses in, dismouting ring lower part support the limit contact with first support limit and second respectively, when this dismouting ring installation, can support the limit through first support limit and second and support, and then be convenient for install and use.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of the heating spray box structure of the present invention.
Fig. 3 is a schematic structural diagram of the structure of the air blowing pipe frame of the present invention.
Fig. 4 is a schematic structural view of the structure of the liquid storage and treatment tank of the present invention.
Fig. 5 is a schematic structural diagram of the filter ring structure of the present invention.
Fig. 6 is an electrical logic schematic of the present invention.
In the figure:
1. an evaporation tower; 2. supporting legs; 3. a support disc; 4. a liquid storage and processing tank structure; 41. a storage tank; 42. a first collection block; 43. a second collection block; 44. a delivery pipe; 45. a sealing valve; 46. a feed pipe; 5. a blowing pipe frame structure; 51. a fan; 52. a process cartridge; 53. assembling a plate; 54. a processing net; 55. a transverse blowpipe; 56. a longitudinal blowpipe; 57. a blowing head; 6. a heat exchanger; 7. a heated spray box structure; 71. a transverse spray pipe; 72. a longitudinal spray pipe; 73. a shower head; 74. an infusion head; 75. a delivery pump; 76. a material suction pipe; 77. a heating box; 78. heating a tube; 79. assembling the head; 8. a demister; 9. a superheating section; 10. an air outlet head; 11. a filter ring structure; 111. disassembling and assembling the ring; 112. an annular cavity; 113. a filter screen; 114. a bag filter; 115. a first support edge; 116. a second support edge; 12. a first return pipe; 13. a circulation pump; 14. a second return pipe; 15. a PLC; 16. and (4) switching.
Detailed Description
The invention is further described below with reference to the accompanying drawings:
example (b):
as shown in fig. 1 to 2, an intelligent multifunctional methanol evaporation device comprises an evaporation tower 1, support legs 2, a support plate 3, a liquid storage and treatment tank structure 4, a blowing pipe frame structure 5, a heat exchanger 6, a heating and spraying tank structure 7, a demister 8, a superheating section 9, an air outlet 10, a filter ring structure 11, a first return pipe 12, a circulating pump 13, a second return pipe 14, a PLC15 and a switch 16, wherein the support legs 2 are welded around the lower surface of the evaporation tower 1; the supporting plate 3 is welded at the lower end of the supporting leg 2; the liquid storage and treatment box structure 4 is arranged at the lower side inside the evaporation tower 1; the blowing pipe frame structure 5 is arranged at the middle lower part inside the evaporation tower 1; the heat exchanger 6 is mounted in the middle part of the evaporation tower 1 through bolts; the heating spraying box structure 7 is arranged in the middle of the left surface of the evaporation tower 1; the demister 8 is arranged at the middle upper part inside the evaporation tower 1 through bolts; the overheating section 9 is installed at the upper part inside the evaporation tower 1 through bolts; the gas outlet head 10 is welded at the upper end of the evaporation tower 1; the filter ring structure 11 is arranged in the gas outlet head 10; one end of the first return pipe 12 is connected with the liquid storage and treatment box structure 4 by a flange, and the other end is connected with the circulating pump 13 by a flange; one end of the second return pipe 14 is connected with a circulating pump 13 by a flange, and the other end of the second return pipe is connected with the heating spraying box structure 7 by a flange; the PLC15 bolt is arranged at the lower part of the front surface of the evaporation tower 1; the switch 16 is embedded in the front surface of the PLC 15; the heating spray box structure 7 comprises a transverse spray pipe 71, a longitudinal spray pipe 72, a spray header 73, a liquid delivery header 74, a delivery pump 75, a material suction pipe 76, a heating box 77, a heating pipe 78 and an assembly header 79, wherein the transverse spray pipe 71 is welded at the middle part inside the evaporation tower 1 and is arranged at the upper end of the heat exchanger 6; the longitudinal spray pipes 72 are respectively welded between the transverse spray pipes 71 and the evaporation tower 1; the spray header 73 is respectively in threaded connection with the lower surfaces of the transverse spray pipe 71 and the longitudinal spray pipe 72; one end of the infusion head 74 is connected with a flange of a delivery pump 75, and the other end is welded with the left end of the transverse spray pipe 71; the delivery pump 75 is mounted on the upper surface of the heating box 77 through bolts; one end of the material suction pipe 76 is connected with the front part of the delivery pump 75 in a flange mode, and the other end of the material suction pipe is inserted into the heating box 77; the heating box 77 is embedded in the middle of the left surface of the evaporation tower 1; the heating pipes 78 are respectively embedded at the left side and the right side of the lower part in the heating box 77; the assembly head 79 is welded to the upper left portion of the heating box 77, and the left end is flanged with the second return pipe 14.
As shown in fig. 3, in the above embodiment, specifically, the air blowing pipe frame structure 5 includes a blower 51, a processing box 52, an assembly plate 53, a processing net 54, a transverse blowing pipe 55, a longitudinal blowing pipe 56 and a blowing head 57, the blower 51 is mounted on the lower-middle portion of the right surface of the evaporation tower 1 by bolts, and the lower end is connected with the upper end flange of the processing box 52; the processing box 52 is welded at the lower part of the right surface of the evaporation tower 1; the transverse blowing pipe 55 is welded at the middle lower part of the inner wall of the evaporation tower 1, and the right end of the transverse blowing pipe is in threaded connection with the fan 51; the longitudinal blowpipes 56 are welded between the transverse blowpipes 55 and the evaporation tower 1; the blowing head 57 is screw-coupled to the upper surfaces of the lateral blowing pipes 55 and the longitudinal blowing pipes 56, respectively.
As shown in fig. 4, in the above embodiment, specifically, the liquid storage treatment tank structure 4 includes a storage tank 41, a first collection block 42, a second collection block 43, a delivery pipe 44, a sealing valve 45 and a feeding pipe 46, wherein the storage tank 41 is welded to the lower part of the inner wall of the evaporation tower 1; the first collecting block 42 and the second collecting block 43 are respectively welded at the left side and the right side of the lower part of the inner wall of the storage box 41; the delivery pipe 44 is welded at the lower end of the storage tank 41; the sealing valve 45 is in threaded connection with the lower left part of the conveying pipe 44; the feed pipe 46 is welded to the lower left portion of the evaporation column 1.
As shown in fig. 5, in the above embodiment, specifically, the filter ring structure 11 includes a dismounting ring 111, a ring cavity 112, a filter screen 113, a bag filter 114, a first supporting edge 115 and a second supporting edge 116, and the dismounting ring 111 is screwed inside the gas outlet head 10; the ring cavity 112 is arranged inside the dismounting ring 111; the filter screen 113 and the bag filter 114 are respectively installed on the upper part and the lower part of the inner wall of the annular cavity 112 through bolts; the first supporting edge 115 and the second supporting edge 116 are respectively welded on the left and right sides of the inner wall of the gas outlet head 10, and the upper part of the first supporting edge and the second supporting edge is in contact with the dismounting ring 111.
In the above embodiment, specifically, the heating box 77 is communicated with the second return pipe 14 through the assembling head 79, and the heating pipe 78 is installed below the inside of the heating box 77, so that the heating can be performed before spraying the methanol solution, and further, the evaporation effect and the working speed can be increased by matching with the superheating section 9 during processing.
In the above embodiment, specifically, the longitudinal spraying pipes 72 at the front end and the rear end of the transverse spraying pipe 71 are provided in plurality, and the spraying heads 73 are respectively provided on the lower surfaces of the longitudinal spraying pipes, so that the area for spraying is increased, and the use is convenient.
In the above embodiment, specifically, the upper end of the delivery pump 75 is communicated with the transverse spray pipe 71 through the delivery head 74, and the material suction pipe 76 at the lower end is inserted into the heating box 77, so that the function of sucking the methanol solution is facilitated, and the methanol solution is reasonably delivered and used.
In the above embodiment, specifically, the longitudinal blowing pipes 56 at the front and rear parts of the transverse blowing pipe 55 are provided in plurality, and the blowing heads 57 are respectively installed at the upper parts of the longitudinal blowing pipes, so that the blowing can be performed, the rising speed of the spraying liquid can be increased, and simultaneously, a large amount of spraying liquid is driven to rise, thereby increasing the working effect.
In the above embodiment, specifically, three treatment screens 54 are provided, and each treatment screen is an activated carbon filter screen, so that air can be filtered along with the activated carbon filter screens when air is introduced, and the cleanness of air is further improved.
In the above embodiment, specifically, the assembly plate 53 is welded with a stainless handle at the right side, the assembly plate 53 is bolted to the right surface of the processing box 52, and the processing net 54 is bolted to the middle part of the left surface of the assembly plate 53, so that the processing net 54 can be easily detached and replaced when in use.
In the above embodiment, it is specific, the inside left side of storage box 41 peg graft and have the inlet pipe 46, inlet pipe 46 adopt L type steel pipe, inject methanol liquid and air into storage box 41 through inlet pipe 46 respectively, and during the use, can make the preliminary and methanol gas mixture of air to rise, and then increase the effect of its methanol evaporation.
In the above embodiment, the first collecting block 42 and the second collecting block 43 are respectively provided with an inclined upper side and a delivery pipe 44 at the lower inner side, so that the problem that a large amount of methanol liquid is likely to remain at the corner of the bottom of the storage tank 41 when delivering the methanol liquid is avoided.
In the above embodiment, specifically, the conveying pipe 44 is an L-shaped steel pipe, and the sealing valve 45 is connected to the lower left portion of the conveying pipe in a threaded manner, so as to facilitate sealing and storing the methanol solution.
In the above embodiment, specifically, the filter screen 113 and the bag filter 114 are respectively disposed at the upper end of the evaporation tower 1, so that when gas is discharged, the gas can be primarily filtered, and the functionality is increased.
In the above embodiment, specifically, the lower portion of the detachable ring 111 is in contact with the first supporting edge 115 and the second supporting edge 116, respectively, and when the detachable ring 111 is mounted, the detachable ring can be supported by the first supporting edge 115 and the second supporting edge 116, so that the detachable ring is convenient to mount and use.
In the above embodiment, the circulating pump 13 is specifically an MP-55 type circulating pump.
In the above embodiment, the transfer pump 75 is a KCB-83.3 transfer pump.
In the above embodiment, the heating pipe 78 is a GM-125 heating pipe.
In the above embodiment, the fan 51 is specifically a fan with a model number of TB 100-1.
In the above embodiment, specifically, the PLC15 is a PLC of model FX 2N-48.
In the above embodiment, specifically, the switch 16 is electrically connected to an input terminal of the PLC15, the blower 51 is electrically connected to an output terminal of the PLC15, the heating pipe 78 is electrically connected to an output terminal of the PLC15, the delivery pump 75 is electrically connected to an output terminal of the PLC15, the circulation pump 13 is electrically connected to an output terminal of the PLC15, the overheating section 9 is electrically connected to an output terminal of the PLC15, and the demister 8 is electrically connected to an output terminal of the PLC15
Principle of operation
The utility model discloses a theory of operation: when in use, the storage tank 41 in the evaporation tower 1 is injected with methanol liquid through the feeding pipe 46, after the proper amount is reached, the sealing valve 45 is opened and the circulating pump 13 is started, so that the methanol liquid can be injected into the heating tank 77 through the conveying pipe 44, the first return pipe 12 and the second return pipe 14, then the heating pipe 78 is started for heating, when the methanol liquid reaches the proper amount, the conveying pump 75 is started, the methanol liquid is sprayed to the middle part of the evaporation tower 1 through the suction pipe 76, the liquid conveying head 74, the transverse spraying pipe 71, the longitudinal spraying pipe 72 and the spraying head 73, meanwhile, the air is injected into the evaporation tower 1 through the feeding pipe 46, the fan 51 is started, the outside air is filtered through the processing net 54, and enters the evaporation tower 1 from the transverse blowing pipe 55, the longitudinal blowing pipe 56 and the blowing head 57, so that the sprayed methanol liquid and the air can ascend along with the air, and at the same time of ascending, the methanol liquid is mixed with the air, when the methanol liquid and the air reach the periphery of the demister 8 and the overheating section 9, the methanol liquid and the air are respectively started and heated for defoaming, so that the evaporation work can be carried out, after the evaporation is finished, the gas continuously rises, passes through the gas outlet head 10, enters the dismounting ring 111, and then is preliminarily filtered through the bag filter 114 and the filter screen 113.
Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. The intelligent multifunctional methanol evaporation device is characterized by comprising an evaporation tower (1), supporting legs (2), a supporting plate (3), a liquid storage treatment box structure (4), a blowing pipe frame structure (5), a heat exchanger (6), a heating spraying box structure (7), a demister (8), a superheating section (9), an air outlet head (10), a filter ring structure (11), a first backflow pipe (12), a circulating pump (13), a second backflow pipe (14), a PLC (15) and a switch (16), wherein the supporting legs (2) are welded around the lower surface of the evaporation tower (1); the supporting plate (3) is welded at the lower end of the supporting leg (2); the liquid storage and treatment box structure (4) is arranged at the lower side inside the evaporation tower (1); the blowing pipe frame structure (5) is arranged at the middle lower part inside the evaporation tower (1); the heat exchanger (6) is arranged in the middle part of the evaporation tower (1) through bolts; the heating spraying box structure (7) is arranged in the middle of the left surface of the evaporation tower (1); the demister (8) is arranged at the middle upper part inside the evaporation tower (1) through bolts; the overheating section (9) is arranged at the upper part inside the evaporation tower (1) through bolts; the gas outlet head (10) is welded at the upper end of the evaporation tower (1); the filtering ring structure (11) is arranged in the gas outlet head (10); one end of the first return pipe (12) is connected with a flange of the liquid storage treatment box structure (4), and the other end of the first return pipe is connected with a flange of the circulating pump (13); one end of the second return pipe (14) is connected with a flange of the circulating pump (13), and the other end of the second return pipe is connected with a flange of the heating spraying box structure (7); the PLC (15) is installed on the lower part of the front surface of the evaporation tower (1) through bolts; the switch (16) is embedded on the front surface of the PLC (15); the heating spray box structure (7) comprises a transverse spray pipe (71), a longitudinal spray pipe (72), a spray head (73), a liquid delivery head (74), a delivery pump (75), a material suction pipe (76), a heating box (77), a heating pipe (78) and an assembly head (79), wherein the transverse spray pipe (71) is welded in the middle of the inside of the evaporation tower (1) and is arranged at the upper end of the heat exchanger (6); the longitudinal spray pipes (72) are respectively welded between the transverse spray pipes (71) and the evaporation tower (1); the spray header (73) is respectively in threaded connection with the lower surfaces of the transverse spray pipe (71) and the longitudinal spray pipe (72); one end of the liquid conveying head (74) is connected with a flange of the conveying pump (75), and the other end of the liquid conveying head is welded with the left end of the transverse spraying pipe (71); the delivery pump (75) is mounted on the upper surface of the heating box (77) through bolts; one end of the material suction pipe (76) is connected with the front part of the delivery pump (75) in a flange mode, and the other end of the material suction pipe is inserted into the heating box (77); the heating box (77) is embedded in the middle of the left surface of the evaporation tower (1); the heating pipes (78) are respectively embedded at the left side and the right side of the lower part in the heating box (77); the assembly head (79) is welded at the left upper part of the heating box (77), and the left end of the assembly head is connected with the flange of the second return pipe (14); the blowing pipe frame structure (5) comprises a fan (51), a processing box (52), an assembling plate (53), a processing net (54), a transverse blowing pipe (55), a longitudinal blowing pipe (56) and a blowing head (57), wherein the fan (51) is mounted at the middle lower part of the right surface of the evaporation tower (1) through bolts, and the lower end of the fan is connected with an upper end flange of the processing box (52); the processing box (52) is welded at the lower part of the right surface of the evaporation tower (1); the transverse blowpipe (55) is welded at the middle lower part of the inner wall of the evaporation tower (1), and the right end of the transverse blowpipe is in threaded connection with the fan (51); the longitudinal blowpipe (56) is welded between the transverse blowpipe (55) and the evaporation tower (1); the blowing head (57) is respectively in threaded connection with the upper surfaces of the transverse blowing pipe (55) and the longitudinal blowing pipe (56); the liquid storage and treatment tank structure (4) comprises a storage tank (41), a first collection block (42), a second collection block (43), a conveying pipe (44), a sealing valve (45) and a feeding pipe (46), wherein the storage tank (41) is welded to the lower part of the inner wall of the evaporation tower (1); the first collecting block (42) and the second collecting block (43) are respectively welded at the left side and the right side of the lower part of the inner wall of the storage box (41); the conveying pipe (44) is welded at the lower end of the storage tank (41); the sealing valve (45) is in threaded connection with the lower left part of the conveying pipe (44); the feeding pipe (46) is welded at the lower left part of the evaporation tower (1).
2. The intelligent multifunctional methanol evaporation device as claimed in claim 1, wherein the filtering ring structure (11) comprises a dismounting ring (111), a ring cavity (112), a filtering net (113), a bag filter (114), a first supporting edge (115) and a second supporting edge (116), the dismounting ring (111) is screwed inside the gas outlet head (10); the ring cavity (112) is arranged inside the dismounting ring (111); the filter screen (113) and the bag filter (114) are respectively installed on the upper part and the lower part of the inner wall of the annular cavity (112) through bolts; the first supporting edge (115) and the second supporting edge (116) are respectively welded on the left side and the right side of the inner wall of the gas outlet head (10), and the upper parts of the first supporting edge and the second supporting edge are in contact with the dismounting ring (111).
3. An intelligent multifunctional methanol evaporator as set forth in claim 1, characterized in that said heating tank (77) is connected with the second return pipe (14) through an assembly head (79), and a heating pipe (78) is installed below the inside of said heating tank (77).
4. The intelligent multifunctional methanol evaporation device as claimed in claim 1, wherein a plurality of longitudinal spray pipes (72) are arranged at the front end and the rear end of the transverse spray pipe (71), and the lower surfaces of the longitudinal spray pipes are respectively provided with a spray head (73).
5. An intelligent multifunctional methanol evaporation device as claimed in claim 1, wherein a plurality of longitudinal blowing pipes (56) are arranged at the front and the rear of the transverse blowing pipe (55), and the upper parts of the longitudinal blowing pipes are respectively provided with a blowing head (57).
6. The intelligent multifunctional methanol evaporation device as claimed in claim 1, wherein three treatment screens (54) are provided, and each treatment screen is an activated carbon screen.
7. The intelligent multifunctional methanol evaporation device as claimed in claim 1, wherein a feed pipe (46) is inserted into the left side of the inside of the storage tank (41), and the feed pipe (46) is an L-shaped steel pipe.
8. The intelligent multifunctional methanol evaporation device of claim 1, wherein the first collection block (42) and the second collection block (43) are respectively provided with an inclined upper side and a delivery pipe (44) at the lower inner side.
9. The intelligent multifunctional methanol evaporation device of claim 2, wherein the filter screen (113) and the bag filter (114) are respectively arranged at the upper end of the evaporation tower (1).
10. The intelligent multifunctional methanol evaporation device of claim 2, wherein the lower part of the dismounting ring (111) is respectively contacted with the first supporting edge (115) and the second supporting edge (116).
CN201921948366.6U 2019-11-13 2019-11-13 Intelligent multifunctional methanol evaporation device Active CN211215461U (en)

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