CN115307123A - High-temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction - Google Patents

Abstract

The invention provides a high-temperature steam generator for an andrographolide compression reaction, which comprises a high-temperature steam generator body, wherein the high-temperature steam generator body comprises a steam tank, reaction tanks and a butt joint assembly, a water filling port is formed in the top of the steam tank, a heating module is arranged in the steam tank, a conveying base is arranged on one side of the top surface of the steam tank, a butt joint sleeve is arranged on the outer side of the conveying base, the butt joint assembly is arranged in the butt joint sleeve, high-temperature steam can be injected into the raw materials in the two reaction tanks and pressurized, or the high-temperature steam is injected into a single reaction tank, and generated condensate water is collected in a backflow mode.

Description

High-temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction

Technical Field

The invention relates to the technical field of biological pharmacy, in particular to a high-temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction.

Background

In the production synthetic process of potassium sodium dehydroandroan drographolide succinate, need carry out compression reaction through high-temperature steam, consequently, will use dedicated high-temperature steam generator, in the prior art, after heating through heating up aqueous solution, can produce a large amount of high-temperature steam, directly carry again in the retort and can carry out compression reaction, but owing to connect through the steam conduit, consequently, after potassium sodium dehydroandroan drographolide succinate raw materials processing in this retort is accomplished, need carry out the pressure release with the high-temperature steam jar and handle, take out the raw materials in the retort and heat again after putting into new raw materials and heat up, this process makes a large amount of heat energy lose, and the energy has been wasted, and machining efficiency has been reduced, on the other hand, to the discharge of internal raw materials, can lead to the discharge process difficulty because of the high temperature state, can't realize high-efficient quick discharge effect, also can's efficiency according to specific production demand free control compression reaction.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the high-temperature steam generator for the potassium sodium dehydroandroan drographolide succinate compression reaction, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an andrographolide high temperature steam generator for compression reaction, includes the high temperature steam generator body, the high temperature steam generator body includes steam drum, retort and butt joint subassembly, steam drum's top is provided with the water filling port, steam drum's internally mounted has heating module, the transport base is installed to one side of steam drum's top surface, the butt joint sleeve is installed in the outside of carrying the base, butt joint telescopic internally mounted has the butt joint subassembly, the surface of butt joint subassembly is connected with outside retort through two conveyer pipes, the relief valve is installed on the top of retort, the internally mounted of retort has feeding mechanism, the water catch bowl is installed to the bottom of retort, the water catch bowl wholly is the back taper structure, the mounting height of retort is higher than steam drum, feeding mechanism's one end is provided with the compression reaction passageway, the end of compression reaction passageway is provided with the mouth, and the height that highly is higher than the bin outlet of compression reaction passageway.

Further, the top of retort is installed steam and is inserted the pipe, the surface mounting that steam inserted the pipe has the second valve, steam inserts the pipe and is connected with butt joint subassembly part through the conveyer pipe, the bottom of water catch bowl is provided with the back flow, the surface mounting of back flow has first valve, feeding mechanism has run through the both sides of retort.

Furthermore, the steam access pipe is communicated with the return pipe at the bottom through the inside of the reaction tank, the top of the reaction tank is of an arc-shaped top structure, and the tail end of the steam access pipe is hermetically connected with the tail end of the conveying pipe through a threaded structure.

Further, the butt joint subassembly includes butt joint dish and butt joint sleeve, the snap ring is installed to the side of butt joint dish, the access mouth has been seted up to the inside of butt joint dish, the end of conveyer pipe is installed the third valve, the butt joint sleeve passes through welding process and carries the fixed surface of base to be whole.

Furthermore, the access ports respectively correspond to the opening parts of the two conveying pipes, and the butt joint disc and the clamping ring are embedded in the butt joint sleeve.

Further, the inside of carrying the base is provided with steam channel and backward flow passageway, backward flow passageway sets up the bottom at steam channel, the draw-in groove has been seted up on the telescopic inner wall of butt joint, the telescopic inside of butt joint is provided with steam discharge port and backward flow mouth.

Further, the steam discharge port is arranged at the opening part of the steam channel, the backflow port is arranged at the opening part of the backflow channel, the number of the steam channels is three, only one backflow channel is arranged, and the backflow channel extends downwards to the top area of the heating module.

Furthermore, the butt joint disc is embedded in the clamping groove through a clamping ring on the side edge, and the access port is attached to and aligned with the steam outlet or the reflux port.

Further, feeding mechanism includes baffle and compression reaction channel, end cover is installed to compression reaction channel's front end, compression reaction channel's intermediate position is provided with the metal mesh, the baffle is installed in the inboard of metal mesh, the rear end of baffle is provided with the connecting rod.

Further, the hand wheel is installed to the end of connecting rod, be provided with the threaded sleeve on the inner wall of retort, the connecting rod passes from the inside of threaded sleeve, the side of baffle sets up to the inclined plane, and the baffle passes through the side and laminates mutually with the inner wall of compression reaction channel.

The invention has the beneficial effects that: the invention relates to a high-temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction, which comprises a high-temperature steam generator body, wherein the high-temperature steam generator body comprises a steam tank, a water injection port, a reaction tank, a conveying base, a butt joint component, a feeding mechanism, a water collecting tank, a pressure release valve, a backflow pipe, a first valve, a steam access pipe, a second valve, a discharge port, a compression reaction channel, a sealing end cover, a hand wheel, a connecting rod, a threaded sleeve, a metal net, a baffle plate, a steam discharge port, a backflow port, a conveying pipe, a third valve, a butt joint disc, a clamping ring, an access port, a butt joint sleeve, a clamping groove, a steam channel, a backflow channel and a heating module.

1. This high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction inserts the pipe through two conveyer pipes and the steam on two retort and docks the back, can pour into high temperature steam into the raw materials in two retort simultaneously and pressurize, perhaps two conveyer pipes respectively with the back flow on the same retort, steam inserts the pipe and docks the back, high temperature steam is poured into to single retort, and carry out the backward flow with the comdenstion water that produces and collect, these two kinds of states can be selected according to specific compression reaction demand time and efficiency, use the flexibility higher.

2. When this high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction connects single retort, this jar body reaction back that finishes, and the delivery pipe that directly will insert on the back flow of bottom and the butt joint of steam access pipe on another retort can realize the seamless joining processing of raw and other materials and handle, have improved production efficiency, and need not stop the steam drum, have saved the energy, have reduced thermal loss.

3. This high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction can realize the function of feeding and row material through operating feeding mechanism, and can directly slide to row material mouthful department through inside compression reaction channel when arranging the material, does not need artifical manual taking out, has improved the security, and the row material operation of simplifying.

Drawings

FIG. 1 is a schematic structural view of the external form of a high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction according to the present invention;

FIG. 2 is a schematic structural view of a reaction tank part of a high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction according to the present invention;

FIG. 3 is a schematic structural view of a feeding mechanism part of a high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction of the present invention;

FIG. 4 is a schematic structural view of a docking assembly of a high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction according to the invention;

FIG. 5 is a schematic view of a steam tank part of a high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction according to the invention;

in the figure: 1. a steam tank; 2. a water injection port; 3. a reaction tank; 4. a conveying base; 5. a docking assembly; 6. a feeding mechanism; 7. a water collection tank; 8. a pressure relief valve; 9. a return pipe; 10. a first valve; 11. a steam access pipe; 12. a second valve; 13. a discharge outlet; 14. compressing the reaction channel; 15. sealing the end cap; 16. a hand wheel; 17. a connecting rod; 18. a threaded sleeve; 19. a metal mesh; 20. a baffle plate; 21. a steam discharge port; 22. a return port; 23. a delivery pipe; 24. a third valve; 25. a docking tray; 26. a snap ring; 27. an access port; 28. butting the sleeves; 29. a card slot; 30. a steam channel; 31. a return channel; 32. the module is heated.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific embodiments.

Referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides a high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction, includes the high temperature steam generator body, the high temperature steam generator body includes steam drum 1, retort 3 and butt joint subassembly 5, the top of steam drum 1 is provided with water filling port 2, the internally mounted of steam drum 1 has heating module 32, transport base 4 is installed to one side of the top surface of steam drum 1, butt joint sleeve 28 is installed in the outside of transport base 4, the internally mounted of butt joint sleeve 28 has butt joint subassembly 5, the surface of butt joint subassembly 5 is connected with outside retort 3 through two conveyer pipes 23, relief valve 8 is installed on the top of retort 3, the internally mounted of retort 3 has feeding mechanism 6, catch basin 7 is installed to the bottom of retort 3, catch basin 7 wholly is the back taper structure, the mounting height of retort 3 is higher than the height of steam drum 1, the one end of feeding mechanism 6 is provided with compression reaction passageway 14, the end of compression reaction passageway 14 is provided with bin 13, and the height that compression reaction passageway 14 is higher than the height of potassium sodium dehydroandroan drographolide succinate compression reaction passageway 13, this high temperature steam generator for potassium dehydroandroan dehydrographolide succinate compression reaction requires to carry out two high temperature steam processing in the steam drum 3 or carry out the steam compression reaction canister through the steam compression reaction canister 3 in the steam processing in the condensate water, this condensate water can carry out the two high temperature reaction canister 3 respectively, if this two condensate water input reaction canister 3, this high temperature steam generator is carried out the high temperature reaction canister 3, this condensation reaction canister 3, can carry out the processing in the condensation reaction canister 3, carry out the condensation reaction in the condensation reaction canister 3, the high temperature reaction canister 3, the condensation reaction can be connected with the condensation reaction canister 3, the low temperature reaction canister 3, the high temperature reaction canister 3, the condensation reaction is carried out the processing in the low temperature reaction for a small amount of the low pressure processing and carry out the low temperature reaction for a long-time, consequently can be in long-time course of working, do not need frequent supplementary steam water, when needs carry out the compression reaction to a large amount of potassium sodium dehydroandroan drographolide succinate raw materials or short time, directly dock two conveyer pipes 23 respectively with steam access pipe 11 on two retort 3, can carry out the compression reaction to the potassium sodium dehydroandroan drographolide succinate raw materials of placing in two retort 3 simultaneously and handle, and manual discharging inside accumulational comdenstion water after the reaction finishes, wherein there is heating module 32 at steam drum 1 internally mounted, install independent relief valve 8 at the top of retort 3, and relief valve 8 and heating module 32 are current mature technique, thereby install in steam drum 1 according to conventional resistance wire structure heating element and can directly heat the clear water of pouring into and produce a large amount of high temperature steam.

In this embodiment, the top of the reaction tank 3 is provided with a steam access pipe 11, the surface of the steam access pipe 11 is provided with a second valve 12, the steam access pipe 11 is connected with the butt joint component 5 through a delivery pipe 23, the bottom end of the water collecting tank 7 is provided with a return pipe 9, the surface of the return pipe 9 is provided with a first valve 10, the feeding mechanism 6 penetrates through the two sides of the reaction tank 3, the steam access pipe 11 is communicated with the return pipe 9 at the bottom through the inside of the reaction tank 3, the top of the reaction tank 3 is of an arc top structure, the tail end of the steam access pipe 11 is connected with the tail end of the delivery pipe 23 through a thread structure, after the two delivery pipes 23 are butted with the steam access pipes 11 on the two reaction tanks 3, high-temperature steam can be injected into the raw materials in the two reaction tanks 3 and pressurized at the same time, or two conveyer pipes 23 respectively with the back flow 9 on the same retort 3, the steam inserts pipe 11 and docks the back, pour into high temperature steam into single retort 3, and carry out the backward flow with the comdenstion water that produces and collect, these two kinds of states can be selected according to specific compression reaction demand time and efficiency, use the flexibility higher, when connecting single retort 3, directly open first valve 10 and second valve 12, can realize the backward flow of the injection of high temperature steam and comdenstion water and handle, when connecting two retort 3 and using, open second valve 12 on every retort 3, and close first valve 10, can only pour into high temperature steam into, the comdenstion water is then piled up in the water catch bowl 7 of bottom.

In this embodiment, the docking assembly 5 includes a docking tray 25 and a docking sleeve 28, a snap ring 26 is installed at a side of the docking tray 25, an access port 27 is opened in the docking tray 25, a third valve 24 is installed at the end of the delivery pipe 23, the docking sleeve 28 is fixed to the surface of the delivery base 4 as a whole by a welding process, the access port 27 corresponds to the opening portions of the two delivery pipes 23, the docking tray 25 and the snap ring 26 are embedded in the docking sleeve 28, when a single reaction tank 3 is connected, after the reaction of the tank is completed, the delivery pipe 23 connected to the bottom return pipe 9 is directly docked with the steam access pipe 11 of another reaction tank 3, so that the seamless joining processing of the raw materials can be realized, the production efficiency is improved, the steam tank 1 does not need to be stopped, the energy is saved, the heat loss is reduced, and during the specific operation, in the reaction process, the next batch of potassium sodium dehydroandroan drographolide succinate raw material is placed into another standby reaction tank 3, the first valve 10 on the reaction tank 3 after the processing is finished is closed, the delivery pipe 23 connected on the return pipe 9 is disconnected, the steam access pipe 11 on the reaction tank 3 after the processing is finished is in butt joint, the butt joint disc 25 at the rear end is controlled to rotate, the delivery pipe 23 after the reconnection can be communicated with the steam part in the steam tank 1 through the switching of the channels connected in the delivery base 4, the effect of injecting steam into the new reaction tank 3 can be realized, after the pressure in the reaction tank 3 after the reaction is completely released, another delivery pipe 23 can be connected with the return pipe 9 on the new reaction tank 3 again, the butt joint disc 25 is controlled to butt joint the delivery pipe 23 with the return channel 31 at the tail end, the switching function of the reaction tank 3 can be completed, in the switching process, the steam tank 1 does not need to be suspended, the inside steam is also seamlessly connected, and the loss of heat is avoided.

In this embodiment, a steam channel 30 and a backflow channel 31 are arranged inside the conveying base 4, the backflow channel 31 is arranged at the bottom end of the steam channel 30, the inner wall of the docking sleeve 28 is provided with the clamping groove 29, the docking sleeve 28 is internally provided with the steam outlet 21 and the backflow port 22, the steam outlet 21 is arranged at the opening portion of the steam channel 30, the backflow port 22 is arranged at the opening portion of the backflow channel 31, the number of the steam channels 30 is three, only one backflow channel 31 is arranged, the backflow channel 31 extends downwards to the top region of the heating module 32, the docking tray 25 is embedded inside the clamping groove 29 through the clamping ring 26 on the side edge, the access port 27 is attached and aligned with the steam outlet 21 or the backflow port 22, and three steam outlets 21 and one backflow port 22 are arranged inside the docking sleeve 28, so when the docking tray 25 is rotated, the effect that any one conveying pipe 23 is docked with the backflow port 22 or two conveying pipes 23 are docked with two steam outlets 21 at the same time can be achieved, and the adjustment process is simple and convenient.

This embodiment, feeding mechanism 6 includes baffle 20 and compression reaction channel 14, end cover 15 is installed to compression reaction channel 14's front end, compression reaction channel 14's intermediate position is provided with metal mesh 19, baffle 20 installs the inboard at metal mesh 19, the rear end of baffle 20 is provided with connecting rod 17, hand wheel 16 is installed to the end of connecting rod 17, be provided with threaded sleeve 18 on the inner wall of retort 3, connecting rod 17 passes from the inside of threaded sleeve 18, the side of baffle 20 sets up to the inclined plane, and baffle 20 laminates through the side and the inner wall of compression reaction channel 14 mutually, through operation feeding mechanism 6, can realize the function of feeding and row material, and can directly slide to bin outlet 13 department through inside compression reaction channel 14 during row material, do not need artifical manual taking out, improved the security, and simplified row material operation, during the use, directly open end cover 15 puts in the potassium sodium dehydroandroan raw materials to baffle 20 department, realize compression reaction through metal mesh 19 and outside high temperature steam contact, and through rotating hand wheel 16, move behind baffle 20, can open the bottom of baffle 20, can continue potassium sodium dehydroandroan raw materials discharge 13 along the compression reaction channel 14 after opening.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction, includes high temperature steam generator body, its characterized in that: high temperature steam generator body includes steam drum (1), retort (3) and butt joint subassembly (5), the top of steam drum (1) is provided with water filling port (2), the internally mounted of steam drum (1) has heating module (32), delivery base (4) are installed to one side of the top surface of steam drum (1), butt joint sleeve (28) are installed in the outside of delivery base (4), the internally mounted of butt joint sleeve (28) has butt joint subassembly (5), the surface of butt joint subassembly (5) is connected with outside retort (3) through two conveyer pipes (23), relief valve (8) are installed on the top of retort (3), the internally mounted of retort (3) has feeding mechanism (6), water catch bowl (7) are installed to the bottom of retort (3), water catch bowl (7) wholly are the back taper structure, the mounting height of retort (3) is higher than the height of steam drum (1), the one end of feeding mechanism (6) is provided with compression reaction passageway (14), the end of compression reaction passageway (14) is provided with the bin outlet (13), and the bin outlet (13) that is higher than steam drum (13).

2. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 1, wherein: steam access pipe (11) is installed at the top of retort (3), the surface mounting of steam access pipe (11) has second valve (12), steam access pipe (11) are connected with butt joint subassembly (5) part through conveyer pipe (23), the bottom of water catch bowl (7) is provided with back flow (9), the surface mounting of back flow (9) has first valve (10), feeding mechanism (6) have run through the both sides of retort (3).

3. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 2, wherein: the steam access pipe (11) is communicated with a return pipe (9) at the bottom through the inside of the reaction tank (3), the top of the reaction tank (3) is of an arc-shaped top structure, and the tail end of the steam access pipe (11) is hermetically connected with the tail end of the conveying pipe (23) through a threaded structure.

4. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 2, wherein: docking assembly (5) are including docking dish (25) and docking sleeve (28), snap ring (26) are installed to the side of docking dish (25), docking dish (25) inside has been seted up and has been accessed mouthful (27), third valve (24) are installed to the end of conveyer pipe (23), docking sleeve (28) are through the fixed surface of welding process with transport base (4) for whole.

5. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 4, wherein: the access ports (27) respectively correspond to the opening parts of the two conveying pipes (23), and the butt joint disc (25) and the clamping ring (26) are embedded in the butt joint sleeve (28).

6. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 4, wherein: the inside of carrying base (4) is provided with steam channel (30) and backward flow passageway (31), backward flow passageway (31) set up the bottom at steam channel (30), draw-in groove (29) have been seted up on the inner wall of butt joint sleeve (28), the inside of butt joint sleeve (28) is provided with steam outlet (21) and backward flow mouth (22).

7. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 6, wherein: the steam discharge port (21) is arranged at the opening part of the steam channel (30), the return port (22) is arranged at the opening part of the return channel (31), the number of the steam channels (30) is three, only one return channel (31) is arranged, and the return channel (31) extends downwards to the top area of the heating module (32).

8. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 7, wherein: the butt joint disc (25) is embedded in the clamping groove (29) through a clamping ring (26) on the side edge, and the inlet (27) is attached to and aligned with the steam outlet (21) or the return opening (22).

9. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 2, wherein: feeding mechanism (6) are including baffle (20) and compression reaction passageway (14), end cover (15) are installed to the front end of compression reaction passageway (14), the intermediate position of compression reaction passageway (14) is provided with metal mesh (19), the inboard at metal mesh (19) is installed in baffle (20), the rear end of baffle (20) is provided with connecting rod (17).

10. The high temperature steam generator for potassium sodium dehydroandroan drographolide succinate compression reaction as claimed in claim 9, wherein: hand wheel (16) are installed to the end of connecting rod (17), be provided with threaded sleeve (18) on the inner wall of retort (3), connecting rod (17) are passed from the inside of threaded sleeve (18), the side of baffle (20) sets up to the inclined plane, and baffle (20) laminate mutually through the inner wall of side and compression reaction channel (14).

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