CN219355264U - Organic water-soluble fertilizer vacuum evaporation concentration device - Google Patents

Abstract

The utility model relates to the technical field of organic water-soluble fertilizer concentration, and discloses an organic water-soluble fertilizer vacuum evaporation concentration device which comprises a main body mechanism, an energy recovery mechanism and a concentrated solution diversion mechanism, wherein the energy recovery mechanism is positioned on the right side of the main body mechanism, the concentrated solution diversion mechanism is positioned on the left side of the main body mechanism, the main body mechanism comprises a concentration box, an evaporation box, a collection box and a water storage box, the evaporation box is fixedly arranged on the right side of the concentration box, and the energy recovery mechanism comprises a water inlet pipe, a liquid level sensor, a controller, a prompt lamp, a condenser, a water outlet pipe, a recovery pipe I, a vacuum pump I, a recovery pipe II, a recovery pipe III, a vacuum pump II and a recovery pipe IV. This organic water-soluble fertile vacuum evaporation enrichment facility can retrieve the residual vapor waste heat in the device after concentrating the organic water-soluble fertilizer with enrichment facility, and waste heat forms water recovery to the water storage tank through condensation in, reduces the consumption of energy, increases the utilization of energy.

Description

Organic water-soluble fertilizer vacuum evaporation concentration device

Technical Field

The utility model relates to the technical field of organic water-soluble fertilizer concentration, in particular to a vacuum evaporation concentration device for organic water-soluble fertilizer.

Background

The water-soluble fertilizer can be divided into solid fertilizer and liquid fertilizer from morphology, the water-soluble fertilizer is a compound fertilizer which can be completely dissolved and water, the water-soluble fertilizer is a novel fertilizer, the use method is flexible, the organic water-soluble fertilizer needs to be concentrated in the production process, the existing organic water-soluble fertilizer vacuum evaporation concentration device is often inconvenient to concentrate the organic water-soluble fertilizer in the use process and then recover residual water vapor waste heat in the device, the energy consumption is inconvenient to reduce, the energy utilization is inconvenient to increase, and the practicability is lower.

Disclosure of Invention

(one) solving the technical problems

The utility model aims to provide a vacuum evaporation concentration device for organic water-soluble fertilizer, which aims to solve the problems that the existing vacuum evaporation concentration device for organic water-soluble fertilizer is inconvenient to recover residual water vapor waste heat in the device after concentrating the organic water-soluble fertilizer in the use process, inconvenient to reduce energy consumption, inconvenient to increase energy utilization and low in practicability.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an organic water-soluble fertile vacuum evaporation enrichment facility, includes main part mechanism, energy recovery mechanism and concentrate water conservancy diversion mechanism, energy recovery mechanism is located main part mechanism's right side, concentrate water conservancy diversion mechanism is located main part mechanism's left side, main part mechanism includes concentrate case, evaporating box, collecting box and water storage box, evaporating box fixed mounting is on concentrate case's right side, collecting box fixed mounting is on concentrate case's left side, water storage box fixed mounting is on the right side of collecting box, energy recovery mechanism includes inlet tube, level sensor, controller, warning light, condenser, outlet pipe, recovery pipe one, vacuum pump one, recovery pipe two, recovery pipe three, vacuum pump two and recovery pipe four, inlet tube fixed mounting is at the front end of water storage box upper end, level sensor fixed mounting is at the inside right-hand member of water storage box.

Preferably, the controller fixed mounting is in the lower extreme of water storage tank right-hand member, warning light fixed mounting is in the upper end of water storage tank right-hand member, level sensor electric connection controller, controller electric connection warning light, condenser fixed mounting is in the upper end of water storage tank, when water content is not enough in the water storage tank, is convenient for send the suggestion and reminds personnel to add water.

Preferably, the condenser is located the rear of inlet tube, outlet pipe fixed mounting is in the lower extreme of condenser, the outlet pipe is located the inside of water storage tank, first fixed mounting of recovery pipe is in the right-hand member of condenser upper end, first fixed mounting of vacuum pump is in the left end of first recovery pipe, second fixed mounting of recovery pipe is in the left end of first vacuum pump, and the condenser is convenient for with the vapor recovery condensation water of high temperature instill into in the water storage tank, carries out recycle to the energy.

Preferably, the first recovery pipe is fixedly connected with the air outlet end of the first vacuum pump and the air inlet end of the condenser, the second recovery pipe is fixedly connected with the air inlet end of the first vacuum pump and the air outlet end of the collecting box, the third recovery pipe is fixedly arranged at the left end of the upper end of the condenser, and the second vacuum pump is fixedly arranged at the left end of the third recovery pipe, so that hot steam can be absorbed into the condenser conveniently.

Preferably, the fourth recovery pipe is fixedly arranged at the left end of the second vacuum pump, the third recovery pipe is fixedly connected with the air outlet end of the second vacuum pump and the air inlet end of the condenser, the fourth recovery pipe is fixedly connected with the air inlet end of the second vacuum pump and the air outlet end of the evaporation tank, and the practicability of the device is improved.

Preferably, the concentrated solution guiding mechanism comprises a liquid pump, a liquid pumping pipe, a liquid discharging pipe, a delivery pipe, an electromagnetic valve, a liquid inlet, a limiting plate, a partition plate, a heating rod, a vacuum pump III, a first pumping pipe, a second pumping pipe, a water pump, a first connecting pipe and a second connecting pipe, wherein the liquid pumping pump is fixedly arranged at the upper end of a collecting box, the liquid discharging pipe is fixedly arranged at the upper end of the liquid pumping pump, the liquid discharging pipe is fixedly arranged at the lower end of the liquid pumping pump, the liquid discharging pipe extends downwards to the inside of the collecting box, the liquid discharging pipe is fixedly connected with the water outlet end of the liquid pumping pump, and the liquid pumping pipe is fixedly connected with the water inlet end of the liquid pumping pump and the inside of the concentrating box so as to conveniently pump and store concentrated organic water-soluble fertilizer.

Preferably, the delivery tube is fixedly arranged at the lower end inside the collecting box, the delivery tube is fixedly connected with the liquid outlet end of the collecting box, the lower end of the delivery tube extends to the lower side of the collecting box, the electromagnetic valve is fixedly arranged at the lower end of the outer end of the delivery tube, the liquid inlet is fixedly arranged at the left end of the upper end of the concentrating box, the limiting plate is fixedly arranged at the inner end of the concentrating box, the partition plate is fixedly arranged at the left end and the right end of the upper end of the limiting plate, the upper end of the liquid suction tube extends to the middle part of the partition plate, the heating rod is fixedly arranged at the left end and the right end of the lower end inside the evaporating box, the vacuum pump is fixedly arranged on the right side of the concentrating box, the vacuum pump is positioned in the middle of the concentrating box and the evaporating box, the first air suction tube is fixedly arranged at the right end of the vacuum pump, the second air suction tube is fixedly connected with the air inlet end of the vacuum pump and the air outlet end of the evaporating box, and the heated steam is conveniently sucked into the concentrating box.

Preferably, the exhaust pipe II is fixedly connected with the air outlet end of the vacuum pump III and the air inlet end of the concentration tank, the water pump is fixedly arranged on the right side of the evaporation tank, the water pump is positioned in the middle of the evaporation tank and the water storage tank, the connecting pipe I is fixedly arranged on the right end of the water pump, the connecting pipe II is fixedly arranged at the left end of the water pump, the water inlet end of the water pump is fixedly connected with the water outlet end of the water storage tank, the water outlet end of the water pump is fixedly connected with the water inlet end of the evaporation tank, and water in the water storage tank is conveniently pumped into the evaporation tank.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the organic water-soluble fertilizer vacuum evaporation concentration device, the energy recovery mechanism is arranged, so that residual water vapor waste heat in the device can be recovered after the concentration device is used for concentrating the organic water-soluble fertilizer, and the waste heat is condensed to form water to be recovered into the water storage tank, so that the consumption of energy sources is reduced, and the utilization of the energy sources is increased;

2. according to the vacuum evaporation concentration device for the organic water-soluble fertilizer, through installing the concentration diversion mechanism, a user can conveniently control the flow of liquid and steam in the concentration device, so that the use flexibility of the concentration device is greatly improved, and the practicability of the concentration device is improved;

3. this organic water-soluble fertile vacuum evaporation enrichment facility, through installing level sensor, be convenient for detect the content that remains in the water storage tank, convenient to use personnel detect the water storage tank, avoid enrichment facility water in the heating process water level reduce the water yield and reduce, influence evaporation concentration's effect.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of a detail of a partial cross section of the present utility model;

FIG. 4 is a schematic view of a partial perspective detail structure of the present utility model;

FIG. 5 is a schematic diagram of a partial detail and enlarged structure of the energy recovery mechanism of the present utility model;

fig. 6 is a schematic diagram of a partial detail enlarged structure of the energy recovery mechanism of the present utility model.

In the figure: 1. a main body mechanism; 101. a concentrating tank; 102. an evaporation tank; 103. a collection box; 104. a water storage tank; 2. an energy recovery mechanism; 201. a water inlet pipe; 202. a liquid level sensor; 203. a controller; 204. a warning light; 205. a condenser; 206. a water outlet pipe; 207. a first recovery pipe; 208. a first vacuum pump; 209. a second recovery pipe; 210. a recovery pipe III; 211. a second vacuum pump; 212. a recovery pipe IV; 3. a concentrate diversion mechanism; 301. a liquid pump; 302. a liquid suction pipe; 303. a liquid discharge pipe; 304. a delivery tube; 305. an electromagnetic valve; 306. a liquid inlet; 307. a limiting plate; 308. a partition plate; 309. a heating rod; 310. a third vacuum pump; 311. an exhaust pipe I; 312. an exhaust pipe II; 313. a water pump; 314. a first connecting pipe; 315. and a second connecting pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides an organic water-soluble fertile vacuum evaporation enrichment facility, including main body mechanism 1, energy recovery mechanism 2 and concentrate water conservancy diversion mechanism 3, energy recovery mechanism 2 is located the right side of main body mechanism 1, concentrate water conservancy diversion mechanism 3 is located the left side of main body mechanism 1, main body mechanism 1 includes concentrate case 101, evaporation case 102, collection box 103 and water storage box 104, evaporation case 102 fixed mounting is on the right side of concentrate case 101, collection box 103 fixed mounting is on the left side of concentrate case 101, water storage box 104 fixed mounting is on the right side of collection box 103, energy recovery mechanism 2 includes the inlet tube 201, liquid level sensor 202, controller 203, the warning light 204, condenser 205, outlet pipe 206, recovery pipe 207, vacuum pump 208, recovery pipe two 209, recovery pipe three 210, vacuum pump two 211 and recovery pipe four 212, inlet tube 201 fixed mounting is at the front end of water storage box 104 upper end, liquid level sensor 202 fixed mounting is at the inside right-hand member of water storage box 104.

The controller 203 is fixedly arranged at the lower end of the right end of the water storage tank 104, the indicator lamp 204 is fixedly arranged at the upper end of the right end of the water storage tank 104, the liquid level sensor 202 is electrically connected with the controller 203, the controller 203 is electrically connected with the indicator lamp 204, the condenser 205 is fixedly arranged at the upper end of the water storage tank 104, the condenser 205 is positioned behind the water inlet pipe 201, the water outlet pipe 206 is fixedly arranged at the lower end of the condenser 205, the water outlet pipe 206 is positioned in the water storage tank 104, the recovery pipe I207 is fixedly arranged at the right end of the upper end of the condenser 205, the vacuum pump I208 is fixedly arranged at the left end of the recovery pipe I207, the recovery pipe II 209 is fixedly arranged at the left end of the vacuum pump I208, the recovery pipe I207 is fixedly connected with the air outlet end of the vacuum pump I208 and the air outlet end of the condenser 205, the recovery pipe II 209 is fixedly connected with the air inlet end of the vacuum pump I208 and the air outlet end of the collecting tank 103, the recovery pipe III 210 is fixedly arranged at the left end of the upper end of the condenser 205, the second vacuum pump 211 is fixedly arranged at the left end of the third recovery pipe 210, the fourth recovery pipe 212 is fixedly arranged at the left end of the second vacuum pump 211, the third recovery pipe 210 is fixedly connected with the air outlet end of the second vacuum pump 211 and the air inlet end of the condenser 205, the fourth recovery pipe 212 is fixedly connected with the air inlet end of the second vacuum pump 211 and the air outlet end of the evaporation tank 102, when the residual heat of the water vapor in the device needs to be recovered, the first vacuum pump 208 is started, the third recovery pipe 210 of the first vacuum pump 208 pumps the hot water vapor in the condensation tank 101 into the second recovery pipe 209 and then pumps the hot water vapor into the condenser 205, the second vacuum pump 211 is started, the fourth recovery pipe 212 of the second vacuum pump 211 pumps the hot water vapor in the evaporation tank 102 into the second vacuum pump 211, the condenser 205 is started, the internal hot water vapor in the condenser 205 condenses, and water drops are formed after the hot water vapor condenses, the water drops fall downwards under the influence of gravity and enter the water storage tank 104 through the water outlet pipe 206, when the water level in the water storage tank 104 is insufficient, the water level sensor 202 senses that the water level is lower than a set threshold value, the water level sensor 202 sends a signal to the controller 203, and the controller 203 controls the starting indicator lamp 204, so that the indicator lamp 204 prompts personnel to supplement water.

The concentrated solution diversion mechanism 3 comprises a liquid pump 301, a liquid pump 302, a liquid drain pipe 303, a delivery pipe 304, an electromagnetic valve 305, a liquid inlet 306, a limiting plate 307, a baffle 308, a heating rod 309, a vacuum pump three 310, a first air exhaust pipe 311, a second air exhaust pipe 312, a water pump 313, a first connecting pipe 314 and a second connecting pipe 315, wherein the liquid pump 301 is fixedly arranged at the upper end of the collecting box 103, the liquid drain pipe 302 is fixedly arranged at the upper end of the liquid pump 301, the liquid drain pipe 303 is fixedly arranged at the lower end of the liquid pump 301, the liquid drain pipe 303 extends downwards to the inside of the collecting box 103, the liquid drain pipe 303 is fixedly connected with the water outlet end of the liquid pump 301, the liquid inlet end of the liquid drain pipe 302 is fixedly connected with the inside of the concentrated box 101, the delivery pipe 304 is fixedly arranged at the lower end of the inside of the collecting box 103, the lower end of the delivery pipe 304 is fixedly connected with the collecting box 103, the lower end of the delivery pipe 304 extends to the lower part of the collecting box 103, the electromagnetic valve 305 is fixedly arranged at the lower end of the outer end of the delivery pipe 304, the liquid inlet 306 is fixedly arranged at the left end of the upper end of the concentration tank 101, the limiting plate 307 is fixedly arranged at the inner end of the concentration tank 101, the baffle plate 308 is fixedly arranged at the left and right ends of the upper end of the limiting plate 307, the upper end of the liquid suction pipe 302 extends to the middle part of the baffle plate 308, the heating rod 309 is fixedly arranged at the left and right ends of the lower end inside the evaporation tank 102, the vacuum pump three 310 is fixedly arranged at the right side of the concentration tank 101, the vacuum pump three 310 is positioned at the middle parts of the concentration tank 101 and the evaporation tank 102, the exhaust pipe one 311 is fixedly arranged at the right end of the vacuum pump three 310, the exhaust pipe two 312 is fixedly arranged at the left end of the vacuum pump three 310, the exhaust pipe one 311 is fixedly connected with the air inlet end of the vacuum pump three 310 and the air outlet end of the evaporation tank 102, the exhaust pipe two 312 is fixedly connected with the air inlet end of the vacuum pump three 310 and the air inlet end of the concentration tank 101, the water pump 313 is fixedly arranged at the right side of the evaporation tank 102, the water pump 313 is located the middle part of evaporation case 102 and water storage case 104, connecting pipe one 314 fixed mounting is at the right-hand member of water pump 313, connecting pipe two 315 fixed mounting is in the left end of water pump 313, connecting pipe one 314 fixed connection water inlet of water pump 313 and the water outlet of water storage case 104, connecting pipe two 315 fixed connection water outlet of water pump 313 and the water inlet of evaporation case 102, use the personnel to inject organic water-soluble fertilizer into concentrate case 101 internal limiting plate 307 through inlet 306, start water pump 313, water pump 313 draws water in the water storage case 104 to connecting pipe two 315 in the back injection collecting box 103 through connecting pipe one 314, start heating rod 309 heats water in the collecting case 103, form hot steam after the water heating, start vacuum pump three 310 and draw hot steam in collecting case 103 to concentrate in concentrating case 101 through suction pipe one 311, hot steam upwards wafts in concentrating case 101 and heats organic water-soluble fertilizer, concentrate is concentrated after the limiting plate 307 heats organic water-soluble fertilizer, concentrate is concentrated after organic water-soluble fertilizer is heated, after organic water-soluble fertilizer concentrate is concentrated, when organic water-soluble fertilizer concentrate is concentrated 301 is started, water-soluble liquid pump 301 is discharged through water-draining pipe 302 and water-soluble fertilizer concentrate drain pipe 304 is required to be closed, water-soluble fertilizer concentrate pipe 303 is closed after the water concentrate drain pipe is discharged through water drain pipe 302, concentrate pipe 103 is required.

Working principle: when in use, a user injects the organic water-soluble fertilizer into the limiting plate 307 in the concentration tank 101 through the liquid inlet 306, the water pump 313 is started, the water pump 313 pumps water in the water storage tank 104 into the second connecting pipe 315 through the first connecting pipe 314 and then into the collecting tank 103, the heating rod 309 is started to heat the water in the collecting tank 103, hot steam is formed after the water is heated, the vacuum pump three 310 is started to pump the hot steam in the collecting tank 103 into the second extracting pipe 312 through the first extracting pipe 311 and then into the concentration tank 101, the hot steam floats upwards in the concentration tank 101 to heat the limiting plate 307, the limiting plate 307 heats the organic water-soluble fertilizer, the organic water-soluble fertilizer is concentrated after being heated, the liquid extracting pump 301 is started after the organic water-soluble fertilizer is concentrated, the liquid extracting pump 301 pumps the liquid after the organic water-soluble fertilizer is concentrated into the liquid discharging pipe 303 through the liquid extracting pipe 302, the liquid discharging pipe 303 pumps the liquid into the collecting tank 103 to collect the organic water, when the concentrated organic water-soluble fertilizer needs to be recovered, the electromagnetic valve 305 is closed, the concentrated organic water-soluble fertilizer is discharged out of the collecting box 103 through the delivery pipe 304, when the residual heat of the water vapor in the device needs to be recovered, the first vacuum pump 208 is started, the third recovery pipe 210 of the first vacuum pump 208 pumps the hot water vapor in the concentrating box 101 into the second recovery pipe 209 and then into the condenser 205, the second vacuum pump 211 is started, the fourth recovery pipe 212 of the second vacuum pump 211 pumps the hot water vapor in the evaporating box 102 into the second vacuum pump 211 and then into the condenser 205, the condenser 205 is started, the internal hot water vapor in the condenser 205 is condensed, water drops are formed after the hot water vapor is condensed, the water drops fall downwards through the water outlet pipe 206 into the water storage box 104 under the influence of gravity, when the water level in the water storage box 104 is insufficient, the water level sensor 202 senses that the water level is lower than a set threshold, the level sensor 202 sends a signal to the controller 203, and the controller 203 controls the start of the indicator light 204, and the indicator light 204 prompts the person to replenish water.

Finally, it should be noted that the above description is only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and that the simple modification and equivalent substitution of the technical solution of the present utility model can be made by those skilled in the art without departing from the spirit and scope of the technical solution of the present utility model.

Claims (8)

1. The utility model provides an organic water-soluble fertile vacuum evaporation enrichment facility, includes main part mechanism (1), energy recovery mechanism (2) and concentrate water conservancy diversion mechanism (3), its characterized in that: the energy recovery mechanism (2) is located the right side of main part mechanism (1), concentrate water conservancy diversion mechanism (3) are located the left side of main part mechanism (1), main part mechanism (1) is including concentrate case (101), evaporating box (102), collection box (103) and water storage box (104), evaporating box (102) fixed mounting is on the right side of concentrate case (101), collection box (103) fixed mounting is on the left side of concentrate case (101), water storage box (104) fixed mounting is on the right side of collection box (103), energy recovery mechanism (2) include inlet tube (201), level sensor (202), controller (203), warning light (204), condenser (205), outlet pipe (206), recovery pipe one (207), vacuum pump one (208), recovery pipe two (209), recovery pipe three (210), vacuum pump two (211) and recovery pipe four (212), inlet tube (201) fixed mounting is at the front end of water storage box (104) upper end, level sensor (202) fixed mounting is at the right side of water storage box (104).

2. The vacuum evaporation and concentration device for organic water-soluble fertilizer according to claim 1, wherein: the controller (203) is fixedly arranged at the lower end of the right end of the water storage tank (104), the indicator lamp (204) is fixedly arranged at the upper end of the right end of the water storage tank (104), the liquid level sensor (202) is electrically connected with the controller (203), the controller (203) is electrically connected with the indicator lamp (204), and the condenser (205) is fixedly arranged at the upper end of the water storage tank (104).

3. The vacuum evaporation and concentration device for organic water-soluble fertilizer according to claim 2, wherein: the condenser (205) is located the rear of inlet tube (201), outlet pipe (206) fixed mounting is in the lower extreme of condenser (205), outlet pipe (206) are located the inside of water storage box (104), first (207) fixed mounting of recovery pipe is in the right-hand member of condenser (205) upper end, first (208) fixed mounting of vacuum pump is in the left end of first (207) of recovery pipe, second (209) fixed mounting is in the left end of first (208) of vacuum pump.

4. A vacuum evaporation and concentration device for organic water-soluble fertilizer according to claim 3, wherein: the recovery pipe I (207) is fixedly connected with the air outlet end of the vacuum pump I (208) and the air inlet end of the condenser (205), the recovery pipe II (209) is fixedly connected with the air inlet end of the vacuum pump I (208) and the air outlet end of the collecting box (103), the recovery pipe III (210) is fixedly arranged at the left end of the upper end of the condenser (205), and the vacuum pump II (211) is fixedly arranged at the left end of the recovery pipe III (210).

5. The vacuum evaporation and concentration device for organic water-soluble fertilizer according to claim 4, wherein: the recovery pipe IV (212) is fixedly arranged at the left end of the vacuum pump II (211), the recovery pipe III (210) is fixedly connected with the air outlet end of the vacuum pump II (211) and the air inlet end of the condenser (205), and the recovery pipe IV (212) is fixedly connected with the air inlet end of the vacuum pump II (211) and the air outlet end of the evaporation tank (102).

6. The vacuum evaporation and concentration device for organic water-soluble fertilizer according to claim 5, wherein: concentrate water conservancy diversion mechanism (3) include drawing liquid pump (301), drawing liquid pipe (302), fluid-discharge tube (303), delivery tube (304), solenoid valve (305), inlet (306), limiting plate (307), baffle (308), heating rod (309), vacuum pump three (310), exhaust tube one (311), exhaust tube two (312), water pump (313), connecting pipe one (314) and connecting pipe two (315), drawing liquid pump (301) fixed mounting is in the upper end of collecting box (103), drawing liquid pipe (302) fixed mounting is in the upper end of drawing liquid pump (301), fluid-discharge tube (303) fixed mounting is in the lower extreme of drawing liquid pump (301), fluid-discharge tube (303) downwardly extending to the inside of collecting box (103), the play water end of fluid-discharge tube (303) fixed connection drawing liquid pump (301), the inlet end of drawing liquid pump (301) and the inside of concentrating box (101).

7. The vacuum evaporation and concentration device for organic water-soluble fertilizer according to claim 6, wherein: the utility model discloses a vacuum pump, including collection box (103), delivery tube (304), baffle (308), heating rod (309), vacuum pump III (310), limiting plate (307) fixed mounting is at the left end of concentrate box (101) upper end, limiting plate (307) fixed mounting is at the inner of concentrate box (101), baffle (308) fixed mounting is at the left and right ends of limiting plate (307) upper end, the upper end of suction tube (302) extends to the middle part of baffle (308), heating rod (309) fixed mounting is at the left and right ends of the inside lower extreme of evaporating box (102), vacuum pump III (310) fixed mounting is on the right side of concentrate box (101), vacuum pump III (310) are located the middle part of concentrate box (101) and evaporating box (102), suction tube III (311) fixed mounting is at the left and right ends of evaporating pump (310).

8. The vacuum evaporation and concentration device for organic water-soluble fertilizer according to claim 7, wherein: the vacuum evaporator is characterized in that the exhaust pipe II (312) is fixedly connected with the air outlet end of the vacuum pump III (310) and the air inlet end of the concentration tank (101), the water pump (313) is fixedly arranged on the right side of the evaporation tank (102), the water pump (313) is positioned in the middle of the evaporation tank (102) and the water storage tank (104), the connecting pipe I (314) is fixedly arranged on the right end of the water pump (313), the connecting pipe II (315) is fixedly arranged on the left end of the water pump (313), the connecting pipe I (314) is fixedly connected with the water inlet end of the water pump (313) and the water outlet end of the water storage tank (104), and the connecting pipe II (315) is fixedly connected with the water outlet end of the water pump (313) and the water inlet end of the evaporation tank (102).