CN114456927B

CN114456927B - Enzymolysis furnace capable of keeping uniform sealing reaction inside and implementation method thereof

Info

Publication number: CN114456927B
Application number: CN202210243589.2A
Authority: CN
Inventors: 殷世清; 王雷; 朱永真
Original assignee: Jiangsu Hantide Biomedical Co ltd
Current assignee: Jiangsu Hantide Biomedical Co ltd
Priority date: 2022-03-12
Filing date: 2022-03-12
Publication date: 2022-11-08
Anticipated expiration: 2042-03-12
Also published as: CN114456927A

Abstract

The invention discloses an enzymolysis furnace for keeping the interior of the enzymolysis furnace uniformly sealed and reacting and an implementation method thereof, and relates to the technical field of biological reaction. In order to solve the problems that the traditional enzymolysis furnace often accelerates the mixing reaction in a top center stirring or side stirring manner, the uniformity of the feed liquid in the stirring process is poor, the local reaction is easily caused, and the reaction rate is greatly influenced. This keep inside evenly sealed reaction's enzymolysis furnace and implementation method, improve steam transmission speed through the steam fan, the temperature homogeneity in the outer stove of accuse temperature has been guaranteed, the programming rate has been improved, the enzymolysis efficiency is improved, the condensate plate carries refrigerated steam drop gathering to water drainage tank, concentrate the drainage, the utilization ratio of water resource has been improved, the material of bottom of the furnace portion stirs to the upper end in will enzymolyzing through agitating unit down, agitating unit mixes the upper end material on the cooperation, the stirring homogeneity has been improved, avoid the bottom material to precipitate, inside even reaction has been guaranteed, the enzymatic reaction efficiency has been increased.

Description

Enzymolysis furnace capable of keeping uniform sealing reaction inside and implementation method thereof

Technical Field

The invention relates to the technical field of biological reaction, in particular to an enzymolysis furnace for keeping uniform and sealed reaction inside and an implementation method thereof.

Background

The enzymolysis furnace system provides the temperature required by the process enzymolysis, adjusts the pH value, provides a stainless steel container which is stirred, mixed and the like, keeps the enzyme activation and plays the enzyme action, accelerates the improvement and completes the biological reaction process, and is widely applied to the fields of textile dyeing and finishing, protein enzymolysis conversion, biological degradation waste water and the like. However, most of the enzymatic hydrolysis furnaces on the market still have the following problems:

1. the traditional enzymolysis furnace usually carries out accelerated mixing reaction in a top center stirring or side stirring mode, the uniformity of feed liquid in the stirring process is poor, the condition of local reaction is easily caused, and the reaction rate is greatly influenced;

2. traditional enzymolysis furnace adopts the direct steam of jacket to reach the function of enzyme that goes out usually, however steam heating in-process leakproofness is relatively poor, leads to the loss of moisture easily, and the recirculated cooling effect is poor, causes the waste of water resource, improves the energy consumption.

Disclosure of Invention

The invention aims to provide an enzymolysis furnace capable of keeping the internal uniform sealing reaction and an implementation method thereof.

In order to achieve the purpose, the invention provides the following technical scheme:

an enzymolysis furnace for keeping internal uniform sealing reaction comprises a temperature control mechanism and an enzymolysis furnace body, wherein the inner wall of the upper end of the temperature control mechanism is in interference connection with the lower end of the enzymolysis furnace body;

the center of the lower surface of the temperature control outer furnace is provided with a drain pipe, the lower surface of the temperature control outer furnace is respectively provided with uniformly distributed steam inlets, the lower surface of the inner wall of the temperature control outer furnace is provided with an arc with an upward opening, the upper surface of the inner wall of the temperature control outer furnace is provided with an inclined slope, one side of the upper surface of the slope is provided with a cooling water inlet, the center of the upper surface of the enzymolysis inner furnace is provided with a stirring mechanism, and two sides of the upper surface of the enzymolysis inner furnace are respectively provided with a pressure gauge, a pH adjusting mechanism and a feeding mechanism;

the inner wall of the slope of the upper surface of the temperature control outer furnace is respectively provided with a water condensing plate which is uniformly distributed, the lower surface of the water condensing plate is arc-shaped, the inner wall of the temperature control outer furnace is respectively provided with a water collecting strip corresponding to the water condensing plate, the center of the water collecting strip is provided with a water collecting tank, the upper end of the water collecting tank is respectively connected with the lower end of the center of the lower surface of the water condensing plate, the inner wall of the lower surface of the temperature control outer furnace is respectively provided with a water drainage tank corresponding to the water collecting tank, and the water drainage tanks are respectively connected with the edge of the upper surface of a water drainage pipe; the lower end of the inner wall of the temperature-control outer furnace is provided with a steam fan, the center of the steam fan is movably connected with the center of a fan cover through a pin shaft, the periphery of the fan cover is fixedly connected with the periphery of the inner wall of the temperature-control outer furnace through bolts respectively, the inner side of a cooling water inlet is fixedly connected with a cooling water pipe, the cooling water pipe is contacted with the side wall of the enzymolysis inner furnace, the cooling water pipe is spirally wound on the side wall of the enzymolysis inner furnace, and the side wall of the enzymolysis inner furnace is provided with a cooling groove matched with the cooling water pipe respectively;

the enzymolysis inner furnace inner wall upper end is provided with the fixed disk, the fixed disk center be provided with the through-hole of rabbling mechanism looks adaptation, the fixed disk is respectively through bolt and enzymolysis inner furnace inner wall fixed connection all around, the fixed disk lower surface is provided with evenly distributed's material spraying head respectively, the fixed disk upper surface is respectively through pipeline and pH adjusting coil and feeding coil fixed surface connection, pH adjusting coil one end and pH adjusting mechanism lower extreme fixed connection, feeding coil one end and feeding mechanism lower extreme fixed connection, pH adjusting coil and feeding coil respectively with spout the material head and be connected in a staggered way each other.

Furthermore, control panel sets up to liquid crystal display, and control panel passes through wire and temperature-sensing ware and humidity inductor electric connection respectively.

Further, rabbling mechanism is by first motor, the (mixing) shaft, go up agitating unit and agitating unit constitute down, first motor lower surface center passes through motor shaft and reduction case fixed connection, reduction case and enzymolysis inner furnace upper surface center fixed connection, reduction case lower extreme passes through bearing and (mixing) shaft rotation connection, the (mixing) shaft lower extreme passes through bearing and unable adjustment base rotation connection, the (mixing) shaft respectively with last agitating unit and agitating unit nested connection down, it includes axle sleeve and stirring rod to go up agitating unit, it is connected with the interference of (mixing) shaft upper end to go up the axle sleeve inner wall, it is provided with evenly distributed's stirring rod respectively to go up the axle sleeve outer wall, the stirring rod is the axial symmetry distribution respectively above the axle sleeve centre of a circle, adjacent stirring rod is crisscross the setting respectively.

Further, the lower stirring device comprises a lower shaft sleeve and a stirring shaft, the inner wall of the lower shaft sleeve is rotatably connected with the lower end of the stirring shaft through a bearing, the lower surface of the lower shaft sleeve is fixedly connected with the fixed base through a bolt, the outer wall of the lower shaft sleeve is respectively provided with a movable guide groove, one side of the inner wall of the lower shaft sleeve is fixedly connected with a side bevel gear through a bolt, two sides of the side bevel gear are respectively meshed with an upper bevel gear and a lower bevel gear, the upper surface of the upper bevel gear is fixedly connected with the stirring shaft in an embedded manner, the lower surface of the lower bevel gear is fixedly connected with the upper end of the stirring sleeve in an embedded manner, and the lower surface of the stirring sleeve is fixedly connected with the lower surface of the inner wall of the lower shaft sleeve through a bearing; stirring cover both sides are respectively through round pin axle and movable rod one end swing joint movable rod other end respectively through round pin axle and stirring axle one end swing joint, and the axle that stirs turns over runs through axle sleeve and the contact of activity guide slot inner wall both sides down respectively, and the activity guide slot is the cyclic annular setting of slope respectively and is axle sleeve lateral wall down, and the axle one end that stirs turns over is through bolt and second motor fixed connection, and the axle other end that stirs turns over respectively through bolt and stirring board fixed connection.

The invention provides another technical scheme, and an implementation method of an enzymolysis furnace for keeping the internal uniform sealing reaction comprises the following steps:

the method comprises the following steps: respectively inputting enzymes into a feeding coil pipe through a feeding mechanism, uniformly spraying the enzymes into an enzymolysis inner furnace through a spray head, and adjusting the pH value through a pH adjusting coil pipe;

step two: the first motor drives the upper stirring device and the lower stirring device to fully and uniformly mix the enzyme and the bed charge, and the second motor drives the stirring shaft to rotate, so that the material at the bottom is overturned to the upper end, the stirring efficiency is improved, and the enzymolysis reaction speed is improved;

step three: after the enzymolysis, open the accuse temperature case, with the hot-water heating of accuse temperature incasement to steam state, steam gets into the outer stove of accuse temperature through steam inlet, plays the effect of enzyme that goes out to the material in the enzymolysis interior stove, goes out the enzyme and accomplishes the back, carries the cooling water to condenser tube through the cooling water import, cools off the material in the enzymolysis interior stove.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the enzymolysis furnace for keeping the internal uniform sealing reaction and the implementation method thereof, the steam transmission speed is increased through the steam fan, the temperature uniformity in the temperature-controlled outer furnace is ensured, the temperature rise speed is increased, the enzymolysis efficiency is improved, the cooled steam water drops are gathered and conveyed to the drainage tank by the water condensation plate, the water is drained in a centralized manner, the utilization rate of water resources is increased, the investment of the water resources is reduced, the production cost is reduced, meanwhile, the steam rising speed is prevented from being influenced due to the falling of the water drops, and the purpose of keeping the temperature is achieved.

2. According to the enzymolysis furnace for keeping the internal uniform sealing reaction and the implementation method thereof, the side wall of the enzymolysis inner furnace is respectively provided with the cooling tank matched with the cooling water pipe, so that the contact area with the cooling water pipe is increased, the cooling efficiency is improved, the use of cooling water resources is reduced, the enzymolysis furnace is more environment-friendly, the material spraying head is used for uniformly feeding materials or adjusting the pH value, and the stirring mechanism is matched, so that the mixing uniformity is improved, and the energy consumption is reduced.

3. According to the enzymolysis furnace for keeping the internal uniform sealing reaction and the implementation method thereof, the lower stirring device is used for stirring the material at the bottom of the enzymolysis inner furnace to the upper end, and the upper stirring device is matched for mixing the material at the upper end, so that the stirring uniformity is improved, the material at the bottom is prevented from being precipitated, the internal uniform reaction is ensured, and the enzymatic reaction efficiency is increased.

Drawings

FIG. 1 is a perspective view of the overall construction of the present invention;

FIG. 2 is a perspective view of the temperature control mechanism of the present invention;

FIG. 3 is a perspective view of the enzymolysis furnace body of the invention;

FIG. 4 is a partial sectional view of the enzymolysis furnace body of the invention;

FIG. 5 is a cross-sectional view of a temperature controlled external furnace of the present invention;

FIG. 6 is a cross-sectional view of an enzymatic hydrolysis inner furnace of the present invention;

FIG. 7 is a perspective view of the stirring mechanism of the present invention;

fig. 8 is a partial perspective view of the lower stirring device of the present invention.

In the figure: 1. a temperature control mechanism; 11. a temperature control box; 12. a control panel; 13. an observation window; 14. controlling a key; 15. a liquid level ruler; 16. a steam chamber; 17. a temperature sensor; 18. a humidity sensor; 2. an enzymolysis furnace body; 21. controlling the temperature of an external furnace; 211. a drain pipe; 212. a steam inlet; 213. a cooling water inlet; 214. a water condensation plate; 215. water collecting strips; 216. a water discharge tank; 217. a steam fan; 218. a fan housing; 219. a cooling water pipe; 22. carrying out enzymolysis on the inner furnace; 221. a pressure gauge; 222. a pH adjusting mechanism; 223. a feeding mechanism; 224. fixing the disc; 225. a pH adjusting coil pipe; 226. a charging coil pipe; 227. a material spraying head; 23. a stirring mechanism; 231. a first motor; 232. a stirring shaft; 233. an upper stirring device; 2331. an upper shaft sleeve; 2332. a stirring rod; 234. a lower stirring device; 2341. a lower shaft sleeve; 2342. turning over a stirring shaft; 2343. a movable guide groove; 2344. a side bevel gear; 2345. an upper bevel gear; 2346. a lower bevel gear; 2347. a stirring sleeve; 2348. a movable rod; 2349. a second motor; 235. a reduction case; 236. a fixed base; 237. turning over the stirring plate; 24. and (6) cooling the tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-2, an enzymolysis furnace for maintaining an internal uniform sealing reaction comprises a temperature control mechanism 1 and an enzymolysis furnace body 2, wherein an inner wall of an upper end of the temperature control mechanism 1 is in interference connection with a lower end of the enzymolysis furnace body 2, the temperature control mechanism 1 comprises a temperature control box 11, a control panel 12 and an observation window 13, one side of the temperature control box 11 is provided with the control panel 12, one side of the control panel 12 is provided with a control button 14, the other side of the temperature control box 11 is provided with the observation window 13, the observation window 13 is provided with a liquid level ruler 15, a steam chamber 16 is arranged in the temperature control box 11, an inner wall of the steam chamber 16 is respectively provided with a temperature sensor 17 and a humidity sensor 18, the control panel 12 is provided with a liquid crystal display screen, the control panel 12 is respectively electrically connected with the temperature sensor 17 and the humidity sensor 18 through a lead, the control panel 12 displays the temperature in the steam chamber 16 in real time, the temperature of the enzymolysis furnace body 2 is conveniently controlled to reach the enzymolysis temperature, meanwhile, the damage of the temperature control mechanism 1 caused by the excessively low humidity in the steam chamber 16 is prevented, and the service life of the temperature control mechanism 1 is prolonged;

referring to fig. 3-6, the enzymolysis furnace body 2 comprises an outer temperature-control furnace 21 and an inner enzymolysis furnace 22, the upper end of the outer temperature-control furnace 21 is connected with the upper end of the inner enzymolysis furnace 22 in a nested interference manner, a drain pipe 211 is arranged in the center of the lower surface of the outer temperature-control furnace 21, steam inlets 212 which are uniformly distributed are respectively arranged on the lower surface of the outer temperature-control furnace 21, the lower surface of the inner wall of the outer temperature-control furnace 21 is provided with an arc-shaped opening, the upper surface of the inner wall of the outer temperature-control furnace 21 is provided with an inclined slope, a cooling water inlet 213 is arranged on one side of the upper surface of the slope, a stirring mechanism 23 is arranged in the center of the upper surface of the inner enzymolysis furnace 22, pressure gauges 221, a pH adjusting mechanism 222 and a feeding mechanism 223 are respectively arranged on two sides of the upper surface of the inner enzymolysis furnace 22, water condensing plates 214 which are uniformly distributed are respectively arranged on the inner wall of the upper surface of the outer temperature-control furnace 21, the lower surface of the water condensing plates 214 is arc-shaped, water condensing strips 215 which correspond to the water condensing plates 214 are respectively arranged on the inner wall of the outer temperature-control furnace 21, the center of the water gathering strip 215 is provided with a water gathering tank, the upper end of the water gathering tank is respectively connected with the lower end of the center of the lower surface of the water condensing plate 214, the inner wall of the lower surface of the temperature control outer furnace 21 is respectively provided with a water drainage tank 216 corresponding to the water gathering tank, the water drainage tank 216 is respectively connected with the upper surface edge of the water drainage pipe 211, the lower end of the inner wall of the temperature control outer furnace 21 is provided with a steam fan 217, the center of the steam fan 217 is movably connected with the center of a fan cover 218 through a pin shaft, the periphery of the fan cover 218 is respectively fixedly connected with the periphery of the inner wall of the temperature control outer furnace 21 through bolts, steam is rapidly conveyed to the upper end of the temperature control outer furnace 21 through the steam fan 217, the problem that the upper end of the temperature control outer furnace 21 cannot reach the enzymolysis temperature due to cooling in the steam conveying process is avoided, the temperature uniformity in the temperature control outer furnace 21 is ensured, the temperature rising speed is improved, the enzymolysis efficiency is improved, water drops formed by steam cooling slide down to the water drainage tank 216 through the water condensing plate 214, the water is discharged into the steam chamber 16 through the water discharge pipe 211 for circular heating, the utilization rate of water resources is improved, the investment of water resources is reduced, the production cost is reduced, meanwhile, the influence on the rising speed of steam caused by the falling of water drops is prevented, the purpose of keeping constant temperature is achieved, the inner side of the cooling water inlet 213 is fixedly connected with the cooling water pipe 219, the cooling water pipe 219 is contacted with the side wall of the enzymolysis inner furnace 22, the cooling water pipe 219 is spirally wound on the side wall of the enzymolysis inner furnace 22, the side wall of the enzymolysis inner furnace 22 is respectively provided with a cooling groove 24 matched with the cooling water pipe 219, the contact area with the cooling water pipe 219 is increased, the cooling efficiency is improved, the use of cooling water resources is reduced, the energy consumption is reduced, the environment is more environment-friendly, the fixed disc 224 is arranged at the upper end of the inner wall of the enzymolysis inner furnace 22, a through hole matched with the stirring mechanism 23 is formed in the center of the fixed disc 224, the periphery of the fixed disc 224 is fixedly connected with the inner wall of the enzymolysis inner furnace 22 through bolts, the lower surface of the fixed disc 224 is provided with uniformly distributed material spraying heads 227, the upper surface of the fixed disc 224 is fixedly connected with the lower surfaces of the pH adjusting coil 225 and the feeding coil 226 through pipelines, one end of the pH adjusting coil 225 is fixedly connected with the lower end of the pH adjusting mechanism 222, one end of the feeding coil 226 is fixedly connected with the lower end of the feeding mechanism 223, the pH adjusting coil 225 and the feeding coil 226 are respectively and mutually and alternately connected with the material spraying heads 227, the material spraying heads 227 are used for uniformly feeding materials or adjusting the pH value, and the stirring mechanism 23 is matched to improve the mixing uniformity;

referring to fig. 7-8, the stirring mechanism 23 is composed of a first motor 231, a stirring shaft 232, an upper stirring device 233 and a lower stirring device 234, the center of the lower surface of the first motor 231 is fixedly connected with a speed reducer case 235 through a motor shaft, the speed reducer case 235 is fixedly connected with the center of the upper surface of the enzymolysis inner furnace 22, the lower end of the speed reducer case 235 is rotatably connected with the stirring shaft 232 through a bearing, the lower end of the stirring shaft 232 is rotatably connected with a fixed base 236 through a bearing, the stirring shaft 232 is respectively connected with the upper stirring device 233 and the lower stirring device 234 in a nested manner, the upper stirring device 233 comprises an upper shaft sleeve 2331 and stirring rods 2332, the inner wall of the upper shaft sleeve 2331 is in interference connection with the upper end of the stirring shaft 232, the outer wall of the upper shaft sleeve 2331 is respectively provided with uniformly distributed stirring rods 2332, the stirring rods 2332 are respectively distributed in axial symmetry with the center of the upper shaft sleeve 2331 as a circle center, the adjacent stirring rods are respectively staggered, the lower stirring device 234 comprises a lower shaft sleeve 2341 and a turnover shaft 2342, the inner wall of a lower shaft sleeve 2341 is rotatably connected with the lower end of a stirring shaft 232 through a bearing, the lower surface of the lower shaft sleeve 2341 is fixedly connected with a fixed base 236 through bolts, the outer wall of the lower shaft sleeve 2341 is provided with a movable guide groove 2343 respectively, one side of the inner wall of the lower shaft sleeve 2341 is fixedly connected with a side bevel gear 2344 through bolts, two sides of the side bevel gear 2344 are meshed with an upper bevel gear 2345 and a lower bevel gear 2346 respectively, the upper surface of the upper bevel gear 2345 is fixedly connected with the stirring shaft 232 in an embedded mode, the lower surface of the lower bevel gear 2346 is fixedly connected with the upper end of a stirring sleeve 2347 in an embedded mode, the lower surface of the stirring sleeve 2347 is fixedly connected with the lower surface of the inner wall of the lower shaft sleeve 2341 through bearings, two sides of the stirring sleeve 2347 are movably connected with one end of a movable rod 2348 through a pin shaft and the other end of the movable rod 2342 through a pin shaft respectively, and the stirring shaft 2342 penetrates through the lower shaft sleeve 2341 to be contacted with two sides of the inner wall of the movable guide groove 2343 respectively, activity guide slot 2343 is the cyclic annular setting of slope respectively and is axle sleeve 2341 lateral wall down, axle 2342 one end is passed through bolt and second motor 2349 fixed connection to stirring, the axle 2342 other end is stirred through bolt and stirring board 237 fixed connection respectively, it overturns to drive stirring board 237 through second motor 2349, (mixing) shaft 232 rotates and drives bevel gear 2345 and rotates, thereby it rotates to drive down bevel gear 2346 through side bevel gear 2344, stirring cover 2347 drives stirring axle 2342 and rotates from top to bottom along activity guide slot 2343, thereby stir the material upset of stove 22 bottom to the upper end in the enzymolysis, cooperation stirring rod 2332 mixes the upper end material, the stirring homogeneity has been improved, avoid the bottom material to precipitate, inside homogeneous reaction has been guaranteed, enzymatic reaction efficiency has been increased.

the method comprises the following steps: the enzymes are respectively input into the feeding coil pipe 226 through the feeding mechanism 223, the spraying heads 227 respectively and uniformly spray the enzymes into the enzymolysis inner furnace 22, and the pH value is adjusted by the pH adjusting coil pipe 225;

step two: the first motor 231 drives the upper stirring device 233 and the lower stirring device 234 to sufficiently and uniformly mix the enzyme and the bed charge, and the second motor 2349 drives the stirring shaft 2342 to rotate, so that the material at the bottom is turned to the upper end, the stirring efficiency is improved, and the enzymolysis reaction speed is increased;

step three: after the enzymolysis finishes, open accuse temperature case 11, with the hot-water heating to the steam state in the accuse temperature case 11, steam passes through steam inlet 212 and gets into accuse temperature outer stove 21, plays the effect of enzyme that goes out to the material in the interior stove 22 of enzymolysis, goes out the enzyme and accomplishes the back, carries condenser tube 219 with the cooling water through cooling water inlet 213, cools off the material in the interior stove 22 of enzymolysis.

To sum up, the enzymolysis furnace and the implementation method thereof for keeping the internal uniform sealing reaction display the temperature in the steam chamber 16 in real time through the control panel 12, conveniently control the temperature of the enzymolysis furnace body 2 to reach the enzymolysis temperature, simultaneously prevent the damage of the temperature control mechanism 1 caused by the excessively low humidity in the steam chamber 16, improve the service life of the temperature control mechanism 1, rapidly convey the steam to the upper end of the temperature control outer furnace 21 through the steam fan 217, avoid the problem that the upper end of the temperature control outer furnace 21 can not reach the enzymolysis temperature due to the cooling in the steam conveying process, ensure the temperature uniformity in the temperature control outer furnace 21, improve the temperature rise speed, improve the enzymolysis efficiency, the water drops formed by steam cooling slide down to the drainage tank 216 through the water condensation plate 214, discharge into the steam chamber 16 through the drainage pipe 211 for circular heating, improve the utilization rate of water resources, reduce the investment of water resources, and reduce the production cost, meanwhile, the steam rising speed is prevented from being influenced by falling of water drops, the purpose of keeping the temperature constant is achieved, the side wall of the enzymolysis inner furnace 22 is respectively provided with a cooling groove 24 matched with the cooling water pipe 219, the contact area of the side wall of the enzymolysis inner furnace and the cooling water pipe 219 is increased, the cooling efficiency is improved, the use of cooling water resources is reduced, the energy consumption is reduced, the side wall of the enzymolysis inner furnace 22 is more environment-friendly, the material is uniformly fed or pH is adjusted through a material spraying head 227, the mixing uniformity is improved by matching with a stirring mechanism 23, the stirring plate 237 is driven to turn through a second motor 2349, the stirring shaft 232 rotates to drive an upper bevel gear 2345 to rotate, the lower bevel gear 2346 is driven to rotate through a side bevel gear 2344, the stirring sleeve 2347 drives a stirring shaft 2342 to rotate up and down along a movable guide groove 2343, the material at the bottom of the enzymolysis inner furnace 22 is stirred to the upper end, the material at the upper end is mixed by matching with a stirring rod 2332, the stirring uniformity is improved, avoiding the precipitation of the bottom material, ensuring the internal uniform reaction and increasing the enzymatic reaction efficiency.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a keep enzymolysis furnace of inside even sealed reaction, includes temperature control mechanism (1) and enzymolysis furnace body (2), its characterized in that: the inner wall of the upper end of the temperature control mechanism (1) is in interference connection with the lower end of the enzymolysis furnace body (2), the temperature control mechanism (1) comprises a temperature control box (11), a control panel (12) and an observation window (13), the control panel (12) is installed on one side of the temperature control box (11), a control button (14) is arranged on one side of the control panel (12), the observation window (13) is arranged on the other side of the temperature control box (11), a liquid level ruler (15) is arranged on the observation window (13), a steam chamber (16) is arranged in the temperature control box (11), a temperature sensor (17) and a humidity sensor (18) are respectively arranged on the inner wall of the steam chamber (16), the enzymolysis furnace body (2) comprises an outer temperature control furnace (21) and an enzymolysis inner furnace (22), and the upper end of the outer temperature control furnace (21) is in interference connection with the upper end of the enzymolysis inner furnace (22);

a drain pipe (211) is arranged in the center of the lower surface of the temperature control outer furnace (21), steam inlets (212) which are uniformly distributed are respectively arranged on the lower surface of the temperature control outer furnace (21), the lower surface of the inner wall of the temperature control outer furnace (21) is provided with an arc-shaped opening upwards, the upper surface of the inner wall of the temperature control outer furnace (21) is provided with an inclined slope, a cooling water inlet (213) is arranged on one side of the upper surface of the slope, a stirring mechanism (23) is arranged in the center of the upper surface of the enzymolysis inner furnace (22), and a pressure gauge (221), a pH adjusting mechanism (222) and a feeding mechanism (223) are respectively arranged on two sides of the upper surface of the enzymolysis inner furnace (22);

the inner wall of the slope of the upper surface of the temperature-controlled outer furnace (21) is respectively provided with a water condensing plate (214) which is uniformly distributed, the lower surface of the water condensing plate (214) is arc-shaped, the inner wall of the temperature-controlled outer furnace (21) is respectively provided with a water collecting strip (215) corresponding to the water condensing plate (214), the center of the water collecting strip (215) is provided with a water collecting tank, the upper end of the water collecting tank is respectively connected with the lower end of the center of the lower surface of the water condensing plate (214), the inner wall of the lower surface of the temperature-controlled outer furnace (21) is respectively provided with a water drainage tank (216) corresponding to the water collecting tank, and the water drainage tank (216) is respectively connected with the edge of the upper surface of the water drainage pipe (211); the lower end of the inner wall of the temperature-controlled outer furnace (21) is provided with a steam fan (217), the center of the steam fan (217) is movably connected with the center of a fan cover (218) through a pin shaft, the periphery of the fan cover (218) is fixedly connected with the periphery of the inner wall of the temperature-controlled outer furnace (21) through bolts respectively, the inner side of a cooling water inlet (213) is fixedly connected with a cooling water pipe (219), the cooling water pipe (219) is in contact with the side wall of the enzymolysis inner furnace (22), the cooling water pipe (219) is spirally wound on the side wall of the enzymolysis inner furnace (22), and the side wall of the enzymolysis inner furnace (22) is provided with a cooling groove (24) matched with the cooling water pipe (219) respectively;

the enzymolysis inner furnace (22) inner wall upper end is provided with fixed disk (224), fixed disk (224) center be provided with rabbling mechanism (23) looks adaptation's through-hole, fixed disk (224) are all around respectively through bolt and enzymolysis inner furnace (22) inner wall fixed connection, fixed disk (224) lower surface is provided with evenly distributed's whitewashed head (227) respectively, fixed disk (224) upper surface is respectively through pipeline and pH adjusting coil (225) and feeding coil (226) lower surface fixed connection, pH adjusting coil (225) one end and pH adjusting mechanism (222) lower extreme fixed connection, feeding coil (226) one end and feeding mechanism (223) lower extreme fixed connection, pH adjusting coil (225) and feeding coil (226) respectively with whitewashed head (227) crisscross connection each other.

2. An enzymolysis furnace as claimed in claim 1, wherein the reaction vessel further comprises: the control panel (12) is arranged as a liquid crystal display screen, and the control panel (12) is electrically connected with the temperature sensor (17) and the humidity sensor (18) through leads respectively.

3. An enzymolysis furnace as claimed in claim 1, wherein the reaction vessel further comprises: the stirring mechanism (23) is composed of a first motor (231), a stirring shaft (232), an upper stirring device (233) and a lower stirring device (234), the center of the lower surface of the first motor (231) is fixedly connected with a speed reducer box (235) through a motor shaft, the speed reducer box (235) is fixedly connected with the center of the upper surface of the enzymolysis inner furnace (22), the lower end of the speed reducer box (235) is rotatably connected with the stirring shaft (232) through a bearing, the lower end of the stirring shaft (232) is rotatably connected with a fixed base (236) through a bearing, the stirring shaft (232) is respectively connected with the upper stirring device (233) and the lower stirring device (234) in a nested manner, the upper stirring device (233) comprises an upper shaft sleeve (2331) and stirring rods (2332), the inner wall of the upper shaft sleeve (2331) is in interference connection with the upper end of the stirring shaft (232), the outer wall of the upper shaft sleeve (2331) is respectively provided with uniformly distributed stirring rods (2332), the stirring rods (2332) are respectively distributed in a shaft symmetry manner around the center of the upper shaft sleeve (2331), and the adjacent stirring rods (2332) are respectively arranged in a staggered manner.

4. An enzymolysis furnace for maintaining uniform sealing reaction inside as claimed in claim 3, wherein: the lower stirring device (234) comprises a lower shaft sleeve (2341) and a stirring shaft (2342), the inner wall of the lower shaft sleeve (2341) is rotatably connected with the lower end of the stirring shaft (232) through a bearing, the lower surface of the lower shaft sleeve (2341) is fixedly connected with the fixed base (236) through bolts, the outer wall of the lower shaft sleeve (2341) is provided with a movable guide groove (2343) respectively, one side of the inner wall of the lower shaft sleeve (2341) is fixedly connected with a side bevel gear (2344) through bolts, two sides of the side bevel gear (2344) are meshed with an upper bevel gear (2345) and a lower bevel gear (2346) respectively, the upper surface of the upper bevel gear (2345) is fixedly connected with the stirring shaft (232) in a nested mode, the lower surface of the lower bevel gear (2346) is fixedly connected with the upper end of the stirring sleeve (2347) in a nested mode, and the lower surface of the stirring sleeve (2347) is fixedly connected with the lower surface of the inner wall of the lower shaft sleeve (2341) through a bearing; stirring cover (2347) both sides are respectively through round pin axle and movable rod (2348) one end swing joint movable rod (2348) other end respectively through round pin axle and stirring axle (2342) one end swing joint, stirring axle (2342) runs through down axle sleeve (2341) and contact with activity guide slot (2343) inner wall both sides respectively, activity guide slot (2343) are the cyclic annular setting of slope respectively and are axle sleeve (2341) lateral wall down, stirring axle (2342) one end is passed through bolt and second motor (2349) fixed connection, stirring axle (2342) other end is respectively through bolt and stirring board (237) fixed connection.

5. An implementation method of the enzymolysis furnace for maintaining the internal uniform sealing reaction as claimed in claim 4, characterized in that: the method comprises the following steps:

the method comprises the following steps: the enzymes are respectively input into a feeding coil pipe (226) through a feeding mechanism (223), the spraying heads (227) respectively and uniformly spray the enzymes into the enzymolysis inner furnace (22), and a pH value is adjusted by a pH adjusting coil pipe (225);

step two: the first motor (231) drives the upper stirring device (233) and the lower stirring device (234) to fully and uniformly mix the enzyme and the bed charge, and the second motor (2349) drives the stirring shaft (2342) to rotate, so that the materials at the bottom are turned to the upper end, the stirring efficiency is improved, and the enzymolysis reaction speed is increased;

step three: after the enzymolysis, open accuse temperature case (11), with the water heating in accuse temperature case (11) to the steam state, steam gets into accuse temperature outer stove (21) through steam inlet (212), plays the effect of enzyme that goes out to the material in the interior stove of enzymolysis (22), goes out the enzyme and accomplishes the back, carries cooling water to condenser tube (219) through cooling water import (213), cools off the material in the interior stove of enzymolysis (22).