CN110604290A - Fragrant formula integration circulation production facility is carried to domestic fungus mushroom stem dried meat floss - Google Patents

Abstract

The invention relates to processing of edible mushroom, in particular to an edible mushroom stem and dried meat floss aroma-extracting integrated circulating production device. The invention aims to solve the technical problem of providing an edible mushroom stem dried meat floss fragrance-extracting integrated circulating production device. An integrated circulation production device for edible mushroom stem dried meat floss flavor extraction comprises a bottom frame, an outer frame, a feeding mechanism, a baking flavor extraction mechanism, a circulation linkage valve control mechanism and the like; the top end of the underframe is welded with the outer frame. The invention realizes the integral circular production of extracting the fragrance from the mushroom stem dried meat floss, can realize the automatic circular operation from the feeding to the finished product, has good taste of the finished product, keeps the original mushroom smell, and has high molding looseness and beautiful shape; has excellent taste.

Description

Fragrant formula integration circulation production facility is carried to domestic fungus mushroom stem dried meat floss

Technical Field

The invention relates to processing of edible mushroom, in particular to an edible mushroom stem and dried meat floss aroma-extracting integrated circulating production device.

Background

Lentinus edodes belongs to Basidiomycetes, Agaricales, Tricholomataceae and Lentinus edodes, originates from China, is the second largest mushroom in the world, and is also a rare edible fungus which is popular in China for a long time. The mushroom is cultivated in China at first, and the history of more than 800 years is available up to now. The mushroom is also a famous medicinal fungus in China. The medical scientists in the past have written on the property and function of Lentinus edodes. The shiitake has the advantages of fleshy and tender meat, delicious taste, unique aroma and rich nutrition, is a food with food and medicine homology, and has high nutritional, medicinal and health-care values.

With the improvement of living standard of people, the requirements of people on food are higher and higher, and the dried meat floss with the lentinus edodes stems is a novel food which is similar to dried meat floss in shape, golden in color, has the flavor of lentinus edodes and the taste of dried meat floss, and is a health food with rich nutrition and high content of edible fiber.

However, the production of the mushroom stems in the prior art is generally manual baking, the process flow is complex, the required personnel and labor are more in steps, the production efficiency is not high, and meanwhile, no special machine is used for realizing the production of high-quality integrated mushroom stem dried meat floss.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the production of mushroom stems in the prior art is generally manual baking, the process flow is complex, the labor division of personnel required by the steps is more, the production efficiency is not high, and meanwhile, no special machine is used for realizing the production of high-quality integrated mushroom stem dried meat floss.

The invention is achieved by the following specific technical means:

an integrated circulation production device for edible mushroom stem dried meat floss flavor extraction comprises a bottom frame, an outer frame, a feeding mechanism, a baking flavor extraction mechanism, a circulation linkage valve control mechanism, a control screen and a circulation processing mechanism; the top end of the underframe is welded with the outer frame; a feeding mechanism is arranged on the left side of the top end of the outer frame; a baking and fragrance-raising mechanism is arranged at the bottom in the outer frame; a circulating linkage valve control mechanism is arranged on the left side in the outer frame; a control screen is arranged in the middle of the right end; the right side in the outer frame is provided with a circular processing mechanism.

Further preferably, the baking and aroma-raising mechanism comprises an outer barrel cabin, a temperature sensor, an interlayer barrel cabin, a first heating ring, an inner barrel cabin, a first driving wheel, a wave stirring rod, a first micro push rod, a net leaking ring, a fitting block, a switching mechanism, a water pump, a gas collecting pipe, a pre-cooking cabin, a second heating ring, a first electromagnetic valve and a first guide plate; a temperature sensor is arranged in the middle of the top end of the outer barrel cabin; the inner ring of the outer barrel cabin is provided with an interlayer barrel cabin; a first heating ring is arranged at the left top in the outer barrel cabin and is positioned at the top of the interlayer barrel cabin; the inner ring of the outer barrel cabin is provided with an inner barrel cabin, and the inner barrel cabin is positioned at the inner ring of the interlayer barrel cabin; the middle part of the front end of the outer barrel cabin is rotationally connected with a first driving wheel; the left bottom in the outer barrel cabin is welded with the first miniature push rod; the middle part in the inner cylinder cabin is provided with a wave stirring rod, and the front end of the wave stirring rod is connected with a first driving wheel; the right top end of the first miniature push rod is welded with the screen leakage ring; the right end of the screen leaking ring is welded with the attaching block, and the outer ring of the attaching block is connected with the interlayer barrel cabin; the right middle top of the inner barrel cabin is inserted with the switching mechanism; the middle bottom part of the right inner barrel cabin is spliced with the gas collecting pipe; the right side of the switching mechanism is spliced with the water pump; the right side of the outer surface of the water pump is spliced with the pre-cooking cabin; a first electromagnetic valve is arranged on the left side of the top of the gas collecting pipe; the inner ring of the pre-cooking cabin is provided with a second heating ring, the top of the pre-cooking cabin is mutually attached to the first guide plate, and the right side of the first guide plate is connected with the first electromagnetic valve; the front middle part and the rear middle part of the outer barrel cabin are connected with an outer frame; the outer surface of the first driving wheel is connected with a circulating linkage valve control mechanism; the middle part of the outer surface of the switching mechanism is connected with the outer frame; the top of the outer surface of the pre-cooking cabin is connected with an outer frame; the top of the first guide plate is connected with the circular processing mechanism.

Further preferably, the cyclically linked valve control mechanism comprises a variable speed motor, a second transmission wheel, a third transmission wheel, a fourth transmission wheel, a fifth transmission wheel, a first stressing rod, a first transmission rod, a sixth transmission wheel, a first gear, a first rack bar, a limiting plate, a slide rail, a first electromagnet, a second electromagnet, a baffle, a second micro push rod, a contact block, a second transmission rod, a sleeve block, a third transmission rod, a seventh transmission wheel, a second gear, a second rack bar, a second stressing rod and an eighth transmission wheel; the middle part of the front end of the variable speed motor is rotationally connected with the second driving wheel; the top of the outer surface of the second driving wheel is in transmission connection with a third driving wheel; the top of the outer surface of the third driving wheel is in transmission connection with the fourth driving wheel; the right top of the outer surface of the fourth driving wheel is in transmission connection with the fifth driving wheel; the rear middle part of the fifth driving wheel is rotationally connected with the first stressing rod; a first transmission rod is arranged in the middle of the front part of the fifth transmission wheel; the bottom of the outer surface of the fifth driving wheel is in transmission connection with the sixth driving wheel; a second micro push rod is arranged at the bottom of the left side of the first transmission rod; a second transmission rod is arranged at the top of the left side of the first transmission rod; the rear end axle center of the sixth driving wheel is inserted with the first gear; the bottom end of the first gear is meshed with the first rack; the rear side of the first rack bar is welded with the limiting plate; the bottom of the outer surface of the first toothed bar is in sliding connection with the sliding rail; a first electromagnet is arranged at the right end of the first rack bar; a second electromagnet is arranged at the right end of the first electromagnet; a baffle is arranged at the right end of the second electromagnet; the bottom end of the variable speed motor is connected with the outer frame; the axle center of the third driving wheel is connected with the outer frame; the axle center of the fourth driving wheel is connected with the outer frame; the axle center of the fifth driving wheel is connected with the outer frame; the rear side axis of the first force applying rod is connected with the outer frame; the left axle center of the first transmission rod is connected with the outer frame; the axle center of the sixth driving wheel is connected with the outer frame; the bottom end of the sliding rail is connected with the outer frame; the right side of the outer surface of the baffle is connected with a circular processing mechanism; the left axle center of the third transmission rod is connected with the outer frame; the right end of the second stress application rod is connected with the circular processing mechanism; the axle center of the rear end of the eighth transmission wheel is connected with the circular processing mechanism.

Further preferably, the circular processing mechanism comprises a feeding hole, a material cabin, a discharging stirring rod, a discharging connecting pipe, a pre-adding pipe, a cleaning cabin, a water outlet, a water inlet, a special-shaped driving wheel, a cleaning stirring rod, a special-shaped meshing wheel, a reverse stirring rod, a second guide plate and a soaking cabin; the bottom end of the feed port is welded with the material cabin; the middle part in the material cabin is welded with the discharging stirring rod; the right side of the bottom end of the material cabin is spliced with the discharging connecting pipe; the right side of the discharging connecting pipe is sleeved with the pre-feeding pipe; a cleaning cabin is arranged at the bottom end of the pre-feeding pipe; the left top of the cleaning cabin is spliced with the water outlet; the right top of the cleaning cabin is inserted with the water inlet; the middle right side of the front end of the cleaning cabin is rotationally connected with a special-shaped driving wheel; the right side of the middle part in the cleaning cabin is rotationally connected with a cleaning stirring rod, and the middle part of the front end of the cleaning stirring rod is connected with a special-shaped transmission wheel; the middle left side of the front end of the cleaning cabin is rotationally connected with the special-shaped meshing wheel; the left side of the middle part in the front end of the cleaning cabin is rotationally connected with a reverse stirring rod, and the middle part of the front end of the reverse stirring rod is connected with a special-shaped meshing wheel; the bottom end of the cleaning cabin is welded with the second guide plate; the bottom of the outer surface of the second guide plate is mutually attached to the soaking cabin; the top of the outer surface of the material cabin is connected with an outer frame; the axle center of the front end of the discharging stirring rod is connected with a circulating linkage valve control mechanism; the middle part of the front end and the middle part of the rear end of the outer surface of the cleaning cabin are connected with an outer frame; the front end axle center of the special-shaped transmission wheel is connected with the cleaning stirring rod and the circulating linkage valve control mechanism; the top of the outer surface of the soaking cabin and the middle parts of the front end and the rear end are connected with an outer frame.

Further preferably, the switching mechanism comprises a first switching tube, a second electromagnetic valve, a second switching tube, a switching port, a sleeve port, a third micro push rod, a hose, a fourth micro push rod, a fixing ring and a third switching tube; the right side of the first adapter tube is spliced with the second electromagnetic valve; the right side of the second electromagnetic valve is spliced with a second adapter tube; the right end of the second adapter tube is welded with the adapter port; the outer surface of the adapter port is sleeved with the sleeve port; the right side of the top end of the outer surface of the looping is welded with a third micro push rod; the right side of the sleeve opening is sleeved with the hose; the right side of the bottom end of the outer surface of the looping is welded with a fourth micro push rod; the right end of the third micro push rod is welded with the fixing ring, and the left bottom end of the fixing ring is connected with the fourth micro push rod; the hose is sleeved, and the right side of the hose is spliced with a third adapter tube; the outer surface of the first adapter tube is connected with the inner cylinder cabin; the middle part of the outer surface of the second adapter tube is connected with the outer frame; the right side of the outer surface of the third adapter tube is connected with the water pump.

Further preferably, the second micro push rod and the second transmission rod are fixed and rotate synchronously; the third transmission rod inclines by ten degrees from left to right when not moving.

Preferably, the number of the sixth driving wheel, the number of the first gear, the number of the first rack bar, the number of the sliding rail, the number of the first electromagnet, the number of the second electromagnet and the number of the baffle are two, and the two groups are combined respectively and are arranged at the middle part and the bottom part of the right side of the circulating linkage valve control mechanism respectively.

Further preferably, when the special-shaped transmission wheel and the cleaning stirring rod movement rotate forwards, the corresponding special-shaped meshing wheel and the reverse rotation stirring rod are meshed to rotate reversely.

Further preferably, eight first heating rings are annularly arranged at equal intervals.

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

(1) in order to solve the problems that the production of mushroom stems in the prior art is generally manual baking, the process flow is complex, the labor division of personnel required by steps is large, the production efficiency is low, meanwhile, no special machine is used for realizing the production of high-quality integrated dried meat floss for the mushroom stems, a baking and fragrance extracting mechanism, a circulating linkage valve control mechanism and a circulating processing mechanism are designed, when in use, the circulating processing mechanism is matched for sequentially carrying out blanking, cleaning and soaking, the circulating linkage valve control mechanism is matched for carrying out active and passive cabin discharge of each cabin, and then the processed mushroom stems are pre-cooked, fragrance is extracted, and then drying and baking are carried out through the baking and fragrance extracting mechanism; flavoring such as spice can be added for flavoring, and water can be recycled as heat source; when the device is used, the integrated circular production of extracting the fragrance from the mushroom stem dried meat floss is realized, the automatic circular operation can be realized in the process from feeding to finished products, the finished products have good taste, the original mushroom smell is kept, the molding looseness is high, and the shape is attractive; has excellent taste.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a baking aroma-raising mechanism according to the present invention;

FIG. 3 is a schematic structural diagram of a control mechanism of a circulating linkage valve according to the present invention;

FIG. 4 is a schematic structural view of the circular processing mechanism of the present invention;

FIG. 5 is a schematic structural diagram of the adapter mechanism of the present invention;

FIG. 6 is an enlarged view of area A of the present invention;

fig. 7 is an enlarged view of region B of the present invention.

The labels in the figures are: 1-underframe, 2-outer frame, 3-feeding mechanism, 4-baking fragrance-raising mechanism, 5-circulating linkage valve control mechanism, 6-control screen, 7-circulating processing mechanism, 401-outer barrel cabin, 402-temperature sensor, 403-sandwich barrel cabin, 404-first heating ring, 405-inner barrel cabin, 406-first driving wheel, 407-wave stirring rod, 408-first micro push rod, 409-screen-leaking ring, 4010-fitting block, 4011-switching mechanism, 4012-water pump, 4013-gas collecting pipe, 4014-precooking cabin, 4015-second heating ring, 4016-first electromagnetic valve, 4017-first guide plate, 501-variable-speed motor, 502-second driving wheel, 503-third driving wheel, 504-fourth driving wheel, 505-a fifth driving wheel, 506-a first force lever, 507-a first driving rod, 508-a sixth driving wheel, 509-a first gear, 5010-a first toothed bar, 5011-a limit plate, 5012-a slide rail, 5013-a first electromagnet, 5014-a second electromagnet, 5015-a baffle, 5016-a second micro push rod, 5017-a contact block, 5018-a second driving rod, 5019-a sleeve block, 5020-a third driving rod, 5021-a seventh driving wheel, 5022-a second gear, 5023-a second toothed bar, 5024-a second force lever, 5025-an eighth driving wheel, 701-a feeding port, 702-a material cabin, 703-a discharging stirring rod, 704-a discharging adapter, 705-a pre-feeding pipe, 706-a cleaning cabin, 707-a water outlet, 708-a water inlet, 709-a special-shaped driving wheel, 7010-a cleaning stirring rod, 7011-a special-shaped meshing wheel, 7012-a reverse stirring rod, 7013-a second guide plate, 7014-a soaking cabin, 401101-a first adapter tube, 401102-a second electromagnetic valve, 401103-a second adapter tube, 401104-an adapter, 401105-a sleeve, 401106-a third micro push rod, 401107-a hose, 401108-a fourth micro push rod, 401109-a fixing ring and 4011010-a third adapter tube.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

An integrated circulation production device for extracting fragrance of edible mushroom stem dried meat floss, as shown in figures 1-7, comprises a chassis 1, an outer frame 2, a feeding mechanism 3, a baking fragrance extracting mechanism 4, a circulation linkage valve control mechanism 5, a control screen 6 and a circulation processing mechanism 7; the top end of the underframe 1 is welded with the outer frame 2; a feeding mechanism 3 is arranged on the left side of the top end of the outer frame 2; a baking and fragrance-raising mechanism 4 is arranged at the bottom in the outer frame 2; a circulating linkage valve control mechanism 5 is arranged at the left side in the outer frame 2; a control screen 6 is arranged in the middle of the right end; the inner right side of the outer frame 2 is provided with a circular processing mechanism 7.

The baking and aroma-improving mechanism 4 comprises an outer barrel cabin 401, a temperature sensor 402, an interlayer barrel cabin 403, a first heating ring 404, an inner barrel cabin 405, a first driving wheel 406, a wave stirring rod 407, a first micro push rod 408, a leakage net ring 409, a fitting block 4010, a switching mechanism 4011, a water pump 4012, a gas collecting pipe 4013, a precooking cabin 4014, a second heating ring 4015, a first electromagnetic valve 4016 and a first guide plate 4017; a temperature sensor 402 is arranged in the middle of the top end of the outer cylinder cabin 401; an interlayer barrel cabin 403 is arranged at the inner ring of the outer barrel cabin 401; a first heating ring 404 is arranged at the top left part in the outer barrel cabin 401, and the first heating ring 404 is positioned at the top of the interlayer barrel cabin 403; an inner barrel cabin 405 is arranged on the inner ring of the outer barrel cabin 401, and the inner barrel cabin 405 is positioned on the inner ring of the interlayer barrel cabin 403; the middle part of the front end of the outer cylinder cabin 401 is rotationally connected with a first driving wheel 406; the left bottom in the outer barrel cabin 401 is welded with a first micro push rod 408; the middle part in the inner cylinder cabin 405 is provided with a wave stirring rod 407, and the front end of the wave stirring rod 407 is connected with a first driving wheel 406; the right top end of the first miniature push rod 408 is welded with the net leaking ring 409; the right end of the net leaking ring 409 is welded with the attaching block 4010, and the outer ring of the attaching block 4010 is connected with the interlayer barrel cabin 403; the top of the right middle of the inner barrel cabin 405 is inserted into the switching mechanism 4011; the right middle bottom of the inner barrel cabin 405 is inserted with a gas collecting pipe 4013; the right side of the switching mechanism 4011 is inserted into a water pump 4012; the right side of the outer surface of the water pump 4012 is inserted into the pre-cooking chamber 4014; a first electromagnetic valve 4016 is arranged on the left side of the top of the gas collecting pipe 4013; a second heating ring 4015 is arranged on the inner ring of the pre-cooking cabin 4014, the top of the interior of the pre-cooking cabin 4014 is attached to a first guide plate 4017, and the right side of the first guide plate 4017 is connected with a first electromagnetic valve 4016; the front middle part and the rear middle part of the outer barrel cabin 401 are both connected with the outer frame 2; the outer surface of the first driving wheel 406 is connected with a circulating linkage valve control mechanism 5; the middle part of the outer surface of the switching mechanism 4011 is connected with the outer frame 2; the top of the outer surface of the pre-cooking cabin 4014 is connected with the outer frame 2; the top of the first guide plate 4017 is connected with the circular processing mechanism 7.

The cyclically linked valve control mechanism 5 comprises a variable speed motor 501, a second transmission wheel 502, a third transmission wheel 503, a fourth transmission wheel 504, a fifth transmission wheel 505, a first force adding rod 506, a first transmission rod 507, a sixth transmission wheel 508, a first gear 509, a first toothed bar 5010, a limiting plate 5011, a sliding rail 5012, a first electromagnet 5013, a second electromagnet 5014, a baffle 5015, a second micro push rod 5016, a contact block 5017, a second transmission rod 5018, a sleeve block 5019, a third transmission rod 5020, a seventh transmission wheel 5021, a second gear 5022, a second toothed bar 5023, a second force adding rod 5024 and an eighth transmission wheel 5025; the middle part of the front end of the variable speed motor 501 is rotationally connected with a second driving wheel 502; the top of the outer surface of the second driving wheel 502 is in transmission connection with a third driving wheel 503; the top of the outer surface of the third driving wheel 503 is in driving connection with a fourth driving wheel 504; the right top of the outer surface of the fourth driving wheel 504 is in driving connection with a fifth driving wheel 505; the rear middle part of the fifth driving wheel 505 is rotationally connected with a first force applying rod 506; a first transmission rod 507 is arranged in the front middle part of the fifth transmission wheel 505; the bottom of the outer surface of the fifth driving wheel 505 is in driving connection with a sixth driving wheel 508; the bottom of the left side of the first transmission rod 507 is provided with a second micro push rod 5016; a second transmission rod 5018 is arranged at the top of the left side of the first transmission rod 507; the rear end axle center of the sixth transmission wheel 508 is inserted with the first gear 509; the bottom end of the first gear 509 is engaged with the first rack 5010; the rear side of the first rack 5010 is welded with a limiting plate 5011; the bottom of the outer surface of the first rack 5010 is in sliding connection with the sliding rail 5012; the right end of the first rack 5010 is provided with a first electromagnet 5013; the right end of the first electromagnet 5013 is provided with a second electromagnet 5014; a baffle 5015 is arranged at the right end of the second electromagnet 5014; the bottom end of the variable speed motor 501 is connected with the outer frame 2; the axle center of the third driving wheel 503 is connected with the outer frame 2; the axle center of the fourth driving wheel 504 is connected with the outer frame 2; the axle center of the fifth driving wheel 505 is connected with the outer frame 2; the rear axle center of the first force applying rod 506 is connected with the outer frame 2; the left axle center of the first transmission rod 507 is connected with the outer frame 2; the axle center of the sixth transmission wheel 508 is connected with the outer frame 2; the bottom end of the sliding rail 5012 is connected with the outer frame 2; the right side of the outer surface of the baffle 5015 is connected with a circular processing mechanism 7; the left axis of the third transmission rod 5020 is connected with the outer frame 2; the right end of the second stressing rod 5024 is connected with the circular processing mechanism 7; the axle center of the rear end of the eighth driving wheel 5025 is connected with the circular processing mechanism 7.

The circular processing mechanism 7 comprises a feeding hole 701, a material cabin 702, a discharging stirring rod 703, a discharging connecting pipe 704, a pre-feeding pipe 705, a cleaning cabin 706, a water discharging hole 707, a water inlet 708, a special-shaped driving wheel 709, a cleaning stirring rod 7010, a special-shaped meshing wheel 7011, a reverse stirring rod 7012, a second guide plate 7013 and a soaking cabin 7014; the bottom end of the feed port 701 is welded with the material cabin 702; the middle part in the material cabin 702 is welded with a discharging stirring rod 703; the right side of the bottom end of the material cabin 702 is spliced with a discharging connecting pipe 704; the right side of the discharging connecting pipe 704 is sleeved with a pre-feeding pipe 705; a cleaning cabin 706 is arranged at the bottom end of the pre-feeding pipe 705; the left top of the cleaning cabin 706 is inserted with a water outlet 707; the right top of the cleaning cabin 706 is plugged with a water inlet 708; the middle right side of the front end of the cleaning cabin 706 is rotatably connected with a special-shaped driving wheel 709; the right side of the middle part in the cleaning cabin 706 is rotatably connected with a cleaning stirring rod 7010, and the middle part of the front end of the cleaning stirring rod 7010 is connected with a special-shaped transmission wheel 709; the middle left side of the front end of the cleaning cabin 706 is rotationally connected with the special-shaped meshing wheel 7011; the left side of the inner middle part of the front end of the cleaning cabin 706 is rotatably connected with a reverse stirring rod 7012, and the middle part of the front end of the reverse stirring rod 7012 is connected with a special-shaped meshing wheel 7011; the bottom end of the cleaning cabin 706 is welded with the second guide plate 7013; the bottom of the outer surface of the second baffle 7013 is attached to the soaking cabin 7014; the top of the outer surface of the material cabin 702 is connected with the outer frame 2; the axle center of the front end of the discharging stirring rod 703 is connected with the control mechanism 5 of the circulating linkage valve; the middle part of the front end and the middle part of the rear end of the outer surface of the cleaning cabin 706 are connected with the outer frame 2; the front end axle center of the special-shaped transmission wheel 709 is connected with a cleaning stirring rod 7010 and a circulating linkage valve control mechanism 5; the top of the outer surface of the soaking cabin 7014 and the middle parts of the front and rear ends are connected with the outer frame 2.

The switching mechanism 4011 comprises a first switching tube 401101, a second solenoid valve 401102, a second switching tube 401103, a switching port 401104, a sleeve port 401105, a third micro push rod 401106, a hose 401107, a fourth micro push rod 401108, a fixing ring 401109 and a third switching tube 4011010; the right side of the first adapter tube 401101 is spliced with a second electromagnetic valve 401102; the right side of the second electromagnetic valve 401102 is spliced with a second adapter tube 401103; the right end of the second adapter tube 401103 is welded with the adapter port 401104; the outer surface of the adapter 401104 is sleeved with the sleeve opening 401105; the right side of the top end of the outer surface of the sleeve opening 401105 is welded with a third micro push rod 401106; the right side of the sleeve opening 401105 is sleeved with a hose 401107; the right side of the bottom end of the outer surface of the sleeve opening 401105 is welded with a fourth micro push rod 401108; the right end of the third micro push rod 401106 is welded with the fixing ring 401109, and the left bottom end of the fixing ring 401109 is connected with the fourth micro push rod 401108; the hose 401107 is sleeved on the right side and is spliced with a third adapter tube 4011010; the outer surface of the first adapter tube 401101 is connected with the inner cylinder cabin 405; the middle part of the outer surface of the second adapter tube 401103 is connected with the outer frame 2; the right side of the outer surface of the third adapter tube 4011010 is connected with a water pump 4012.

The second micro push rod 5016 and the second transmission rod 5018 are fixed and rotate synchronously; the third driving rod 5020 is not moved and is inclined by ten degrees from left to right.

The sixth driving wheel 508, the first gear 509, the first rack 5010, the sliding rail 5012, the first electromagnet 5013, the second electromagnet 5014 and the baffle 5015 are respectively combined, and the two groups of the sixth driving wheel, the first gear 509, the first rack 5010, the sliding rail 5012, the first electromagnet 5013, the second electromagnet 5014 and the baffle 5015 are respectively arranged at the middle part and the bottom part of the right side of the circulating linkage valve control mechanism 5.

When the movement of the special-shaped transmission wheel 709 and the cleaning stirring rod 7010 rotates forwards, the corresponding special-shaped meshing wheel 7011 and the reverse rotation stirring rod 7012 are meshed for reverse rotation.

The first heating ring 404 is provided with eight rings at equal intervals.

The working principle is as follows: when the device is used, the outer frame 2 is supported by the underframe 1 and placed on a horizontal ground, the feeding mechanism 3, the baking aroma-raising mechanism 4, the circulating linkage valve control mechanism 5, the control screen 6 and the circulating processing mechanism 7 are rotated and matched, then a power supply is connected externally, the control screen 6 controls and selects during operation, cut mushroom stems are fed by the feeding mechanism 3 firstly, then the circulating processing mechanism 7 is matched to sequentially carry out blanking, cleaning and soaking, the circulating linkage valve control mechanism 5 is matched to carry out active and passive cabin discharge of each cabin, and then the mushroom stems are pre-cooked, aroma is extracted, and then drying and baking are carried out by the baking aroma-raising mechanism 4 after being processed; flavoring such as spice can be added for flavoring, and water can be recycled as heat source; when the device is used, the integrated circular production of extracting the fragrance from the mushroom stem dried meat floss is realized, the automatic circular operation can be realized in the process from feeding to finished products, the finished products have good taste, the original mushroom smell is kept, the molding looseness is high, and the shape is attractive; has excellent taste.

The baking and aroma-improving mechanism 4 comprises an outer barrel cabin 401, a temperature sensor 402, an interlayer barrel cabin 403, a first heating ring 404, an inner barrel cabin 405, a first driving wheel 406, a wave stirring rod 407, a first micro push rod 408, a leakage net ring 409, a fitting block 4010, a switching mechanism 4011, a water pump 4012, a gas collecting pipe 4013, a precooking cabin 4014, a second heating ring 4015, a first electromagnetic valve 4016 and a first guide plate 4017; a temperature sensor 402 is arranged in the middle of the top end of the outer cylinder cabin 401; an interlayer barrel cabin 403 is arranged at the inner ring of the outer barrel cabin 401; a first heating ring 404 is arranged at the top left part in the outer barrel cabin 401, and the first heating ring 404 is positioned at the top of the interlayer barrel cabin 403; an inner barrel cabin 405 is arranged on the inner ring of the outer barrel cabin 401, and the inner barrel cabin 405 is positioned on the inner ring of the interlayer barrel cabin 403; the middle part of the front end of the outer cylinder cabin 401 is rotationally connected with a first driving wheel 406; the left bottom in the outer barrel cabin 401 is welded with a first micro push rod 408; the middle part in the inner cylinder cabin 405 is provided with a wave stirring rod 407, and the front end of the wave stirring rod 407 is connected with a first driving wheel 406; the right top end of the first miniature push rod 408 is welded with the net leaking ring 409; the right end of the net leaking ring 409 is welded with the attaching block 4010, and the outer ring of the attaching block 4010 is connected with the interlayer barrel cabin 403; the top of the right middle of the inner barrel cabin 405 is inserted into the switching mechanism 4011; the right middle bottom of the inner barrel cabin 405 is inserted with a gas collecting pipe 4013; the right side of the switching mechanism 4011 is inserted into a water pump 4012; the right side of the outer surface of the water pump 4012 is inserted into the pre-cooking chamber 4014; a first electromagnetic valve 4016 is arranged on the left side of the top of the gas collecting pipe 4013; a second heating ring 4015 is arranged on the inner ring of the pre-cooking cabin 4014, the top of the interior of the pre-cooking cabin 4014 is attached to a first guide plate 4017, and the right side of the first guide plate 4017 is connected with a first electromagnetic valve 4016; the front middle part and the rear middle part of the outer barrel cabin 401 are both connected with the outer frame 2; the outer surface of the first driving wheel 406 is connected with a circulating linkage valve control mechanism 5; the middle part of the outer surface of the switching mechanism 4011 is connected with the outer frame 2; the top of the outer surface of the pre-cooking cabin 4014 is connected with the outer frame 2; the top of the first guide plate 4017 is connected with the circular processing mechanism 7.

When in use, soaked lentinus edodes stems and water can flow into a pre-cooking cabin 4014 together through a first guide plate 4017, then the first heating ring 404 is heated and pre-cooked, meanwhile, the top of the first guide plate 4017 is kept sealed through the cooperation of a circulating linkage valve control mechanism 5, the fragrance of the lentinus edodes stems is led in by a gas collecting pipe 4013 connected with a first electromagnetic valve 4016 during pre-cooking and is collected, then the fragrance is extracted by a water pump 4012 after being cooked, and the lentinus edodes stems and the water are extracted to an adapting mechanism 4011 simultaneously; flows into the inner barrel cabin 405, then the first micro push rod 408 is lifted, so that the first micro push rod 408 drives the net leaking ring 409 and the joint block 4010 to ascend, then the water in the inner barrel cabin 405 flows into the interlayer barrel cabin 403 to be used as a part of the heat source, then the first micro push rod 408 is extended and contracted after filtration, so that the joint block 4010 and the inner cylinder cabin 405 are kept sealed, then the first heating ring 404 is controlled to start heating, since the water in the sandwich cartridge chamber 403 is just heated, therefore, the heat is sufficient, the drying can be carried out only by slightly heating, the wave stirring rod 407 is driven by the first transmission wheel 406 to stir during the drying, the seasoning can be added for baking, meanwhile, the fragrance collected during precooking is matched for baking, so that the mushroom stem dried meat floss can keep the original flavor, the fragrance inlet and outlet amount can be adjusted according to the mushroom stem dried meat floss with different flavors, so that the flavor of the finished product can be adjusted conveniently; and adopt wavy wave to stir pole 407 and cooperate and bake, can break up through the recess of cambered surface, it is fluffy and loose degree height, first solenoid valve 4016 also can predetermine in urceolus cabin 401 one side, the business turn over volume of fragrance of being convenient for control, can take out through the discharge gate of bottom after the dried mushroom handle dried meat floss, realized precooking the mushroom handle and carrying fragrant, dry simultaneously and bake, realize the cyclic utilization and the integration processing of water resource.

The cyclically linked valve control mechanism 5 comprises a variable speed motor 501, a second transmission wheel 502, a third transmission wheel 503, a fourth transmission wheel 504, a fifth transmission wheel 505, a first force adding rod 506, a first transmission rod 507, a sixth transmission wheel 508, a first gear 509, a first toothed bar 5010, a limiting plate 5011, a sliding rail 5012, a first electromagnet 5013, a second electromagnet 5014, a baffle 5015, a second micro push rod 5016, a contact block 5017, a second transmission rod 5018, a sleeve block 5019, a third transmission rod 5020, a seventh transmission wheel 5021, a second gear 5022, a second toothed bar 5023, a second force adding rod 5024 and an eighth transmission wheel 5025; the middle part of the front end of the variable speed motor 501 is rotationally connected with a second driving wheel 502; the top of the outer surface of the second driving wheel 502 is in transmission connection with a third driving wheel 503; the top of the outer surface of the third driving wheel 503 is in driving connection with a fourth driving wheel 504; the right top of the outer surface of the fourth driving wheel 504 is in driving connection with a fifth driving wheel 505; the rear middle part of the fifth driving wheel 505 is rotationally connected with a first force applying rod 506; a first transmission rod 507 is arranged in the front middle part of the fifth transmission wheel 505; the bottom of the outer surface of the fifth driving wheel 505 is in driving connection with a sixth driving wheel 508; the bottom of the left side of the first transmission rod 507 is provided with a second micro push rod 5016; a second transmission rod 5018 is arranged at the top of the left side of the first transmission rod 507; the rear end axle center of the sixth transmission wheel 508 is inserted with the first gear 509; the bottom end of the first gear 509 is engaged with the first rack 5010; the rear side of the first rack 5010 is welded with a limiting plate 5011; the bottom of the outer surface of the first rack 5010 is in sliding connection with the sliding rail 5012; the right end of the first rack 5010 is provided with a first electromagnet 5013; the right end of the first electromagnet 5013 is provided with a second electromagnet 5014; a baffle 5015 is arranged at the right end of the second electromagnet 5014; the bottom end of the variable speed motor 501 is connected with the outer frame 2; the axle center of the third driving wheel 503 is connected with the outer frame 2; the axle center of the fourth driving wheel 504 is connected with the outer frame 2; the axle center of the fifth driving wheel 505 is connected with the outer frame 2; the rear axle center of the first force applying rod 506 is connected with the outer frame 2; the left axle center of the first transmission rod 507 is connected with the outer frame 2; the axle center of the sixth transmission wheel 508 is connected with the outer frame 2; the bottom end of the sliding rail 5012 is connected with the outer frame 2; the right side of the outer surface of the baffle 5015 is connected with a circular processing mechanism 7; the left axis of the third transmission rod 5020 is connected with the outer frame 2; the right end of the second stressing rod 5024 is connected with the circular processing mechanism 7; the axle center of the rear end of the eighth driving wheel 5025 is connected with the circular processing mechanism 7.

When in use, the second transmission wheel 502 can be driven to rotate by the variable speed motor 501; the second transmission wheel 502 drives the third transmission wheel 503 to rotate in coordination with the fourth transmission wheel 504; the fourth driving wheel 504 drives the fifth driving wheel 505 to rotate; according to the using situation, when needed, the second micro push rod 5016 is descended to enable the contact block 5017 to be in contact with the limit plate 5011, the contact block 5017 is slightly lower than the horizontal height of the limit plate 5011, then the first gear 509 is driven by the sixth transmission wheel 508 to drive the first gear 509 to be meshed with the first rack 5010, meanwhile the first rack 5010 drives the limit plate 5011 to slide, the first rack 5010 slides in the sliding rail 5012, then the first rack 5010 is in contact with the contact block 5017, then the contact block 5017 is jacked upwards and kept in an upward motionless state, the contact block 5017 drives the second transmission rod 5018, the second transmission rod 5018 drives the sleeve 5019 to slide, so that the inclined third transmission rod 5020 is jacked up and kept horizontal, then the third transmission rod 5020 is driven to drive the seventh transmission wheel 5021, the seventh transmission wheel 5021 drives the second gear 5022 to be meshed with the second rack 5023, and the second rack 5023 is meshed to drive the material cabin 702 to move to the right to cooperate, meanwhile, according to the processing steps, the fifth driving wheel 505 can synchronously drive the sixth driving wheel 508 to rotate, the sixth driving wheel 508 drives the first gear 509 to rotate, so that the first gear 509 is meshed with the first rack 5010, and simultaneously the first electromagnet 5013 and the second electromagnet 5014 are electrified and connected to drive the baffle 5015 to simultaneously move leftwards, so that the cleaning cabin 706 is matched with the shiitake mushroom stem outlet cabin, the same steps are matched with a plurality of groups of the first electromagnet 5013 and the second electromagnet 5014 as required, so that the soaking cabin 7014 is matched with the shiitake mushroom stem outlet cabin, the basic process is that no material is fed, then the outlet cabin 706 of the cleaning cabin 706 can be independently opened when the material is fed after cleaning, then the cleaning cabin 706 can be matched and sealed while the soaking cabin 7014 is fed when the material is fed, a plurality of groups of functional linkage and independent opening and closing according to the processing circulation steps can be realized, and the adaptability and adjustability are extremely strong, can be used in integrated processing.

The circular processing mechanism 7 comprises a feeding hole 701, a material cabin 702, a discharging stirring rod 703, a discharging connecting pipe 704, a pre-feeding pipe 705, a cleaning cabin 706, a water discharging hole 707, a water inlet 708, a special-shaped driving wheel 709, a cleaning stirring rod 7010, a special-shaped meshing wheel 7011, a reverse stirring rod 7012, a second guide plate 7013 and a soaking cabin 7014; the bottom end of the feed port 701 is welded with the material cabin 702; the middle part in the material cabin 702 is welded with a discharging stirring rod 703; the right side of the bottom end of the material cabin 702 is spliced with a discharging connecting pipe 704; the right side of the discharging connecting pipe 704 is sleeved with a pre-feeding pipe 705; a cleaning cabin 706 is arranged at the bottom end of the pre-feeding pipe 705; the left top of the cleaning cabin 706 is inserted with a water outlet 707; the right top of the cleaning cabin 706 is plugged with a water inlet 708; the middle right side of the front end of the cleaning cabin 706 is rotatably connected with a special-shaped driving wheel 709; the right side of the middle part in the cleaning cabin 706 is rotatably connected with a cleaning stirring rod 7010, and the middle part of the front end of the cleaning stirring rod 7010 is connected with a special-shaped transmission wheel 709; the middle left side of the front end of the cleaning cabin 706 is rotationally connected with the special-shaped meshing wheel 7011; the left side of the inner middle part of the front end of the cleaning cabin 706 is rotatably connected with a reverse stirring rod 7012, and the middle part of the front end of the reverse stirring rod 7012 is connected with a special-shaped meshing wheel 7011; the bottom end of the cleaning cabin 706 is welded with the second guide plate 7013; the bottom of the outer surface of the second baffle 7013 is attached to the soaking cabin 7014; the top of the outer surface of the material cabin 702 is connected with the outer frame 2; the axle center of the front end of the discharging stirring rod 703 is connected with the control mechanism 5 of the circulating linkage valve; the middle part of the front end and the middle part of the rear end of the outer surface of the cleaning cabin 706 are connected with the outer frame 2; the front end axle center of the special-shaped transmission wheel 709 is connected with a cleaning stirring rod 7010 and a circulating linkage valve control mechanism 5; the top of the outer surface of the soaking cabin 7014 and the middle parts of the front and rear ends are connected with the outer frame 2.

When in use, the materials are loaded through the loading mechanism 3 and then poured into the material cabin 702 through the feeding hole 701; then, mushroom stems are poured into the cleaning cabin 706 through the overturning of the discharging stirring rod 703, and the pre-feeding pipe 705 can be used for switching and adjusting requirements such as cleaning agents and the like; then mushroom stems are poured into the cleaning cabin 706 through the discharging connecting pipe 704, water is fed from the water inlet 708, a feeding valve and a discharging valve can be preset in the discharging connecting pipe 704, the special-shaped driving wheel 709 drives the cleaning stirring rod 7010 to rotate through transmission, then a bump is arranged in the middle of the left side of the outer surface of the special-shaped driving wheel 709 and can be meshed with a groove in the outer surface of the special-shaped meshing wheel 7011, so that the special-shaped meshing wheel 7011 is driven to turn over, the reversing stirring rod 7012 is driven to turn over intermittently, the bottom parts in the cleaning cabin 706 and the soaking cabin 7014 are both provided with a plug board groove for opening and closing the mushroom stems to be taken out of the cabin in cooperation with the circulating linkage valve control mechanism 5, during cleaning, a filter screen is arranged in the water outlet 707, magazines can be discharged in a floating manner, the circulating water flow type mushroom stems are cleaned and then enter the soaking cabin 7014 for soaking through a second guide plate 70, pre-adding, floating, cleaning and soaking.

The switching mechanism 4011 comprises a first switching tube 401101, a second solenoid valve 401102, a second switching tube 401103, a switching port 401104, a sleeve port 401105, a third micro push rod 401106, a hose 401107, a fourth micro push rod 401108, a fixing ring 401109 and a third switching tube 4011010; the right side of the first adapter tube 401101 is spliced with a second electromagnetic valve 401102; the right side of the second electromagnetic valve 401102 is spliced with a second adapter tube 401103; the right end of the second adapter tube 401103 is welded with the adapter port 401104; the outer surface of the adapter 401104 is sleeved with the sleeve opening 401105; the right side of the top end of the outer surface of the sleeve opening 401105 is welded with a third micro push rod 401106; the right side of the sleeve opening 401105 is sleeved with a hose 401107; the right side of the bottom end of the outer surface of the sleeve opening 401105 is welded with a fourth micro push rod 401108; the right end of the third micro push rod 401106 is welded with the fixing ring 401109, and the left bottom end of the fixing ring 401109 is connected with the fourth micro push rod 401108; the hose 401107 is sleeved on the right side and is spliced with a third adapter tube 4011010; the outer surface of the first adapter tube 401101 is connected with the inner cylinder cabin 405; the middle part of the outer surface of the second adapter tube 401103 is connected with the outer frame 2; the right side of the outer surface of the third adapter tube 4011010 is connected with a water pump 4012.

When in use, the right side of the first adapter tube 401101 is sequentially spliced with the second electromagnetic valve 401102; the right side of the second electromagnetic valve 401102 is spliced with a second adapter tube 401103; the right side of the second adapter tube 401103 is welded with the adapter port 401104; then, in actual use, the synchronous extension and retraction of the third micro push rod 401106 and the fourth micro push rod 401108 can be controlled, so that the adapter 401104 is sleeved with the sleeve 401105; the cooperation of hose 401107 is flexible immediately, and solid fixed ring 401109 uses as the afterburning, then makes third adapter tube 4011010 be connected with water pump 4012, extracts the mushroom handle that the precooked, dries and cures, has realized extracting the mushroom handle that the precooked to can break away from the interface in real time, can cooperate the feed demand to convert.

The second micro push rod 5016 and the second transmission rod 5018 are fixed and rotate synchronously; when not moving, the third transmission rod 5020 is inclined by ten degrees from left to right, and the third transmission rod 5020 can cooperate with the second micro push rod 5016 to realize the left-right movement of the material cabin 702.

The sixth driving wheel 508, the first gear 509, the first rack 5010, the sliding rail 5012, the first electromagnet 5013, the second electromagnet 5014 and the baffle 5015 are respectively combined, and the two groups of the sixth driving wheel, the first gear 509, the first rack 5010, the sliding rail 5012, the first electromagnet 5013, the second electromagnet 5014 and the baffle 5015 are respectively arranged at the middle part and the bottom of the right side of the circulating linkage valve control mechanism 5 and can be matched with multiple groups of circulating linkage valve control mechanisms to realize simultaneous matching.

When the special-shaped transmission wheel 709 and the cleaning stirring rod 7010 move forwards, the corresponding special-shaped meshing wheel 7011 and the corresponding reverse rotation stirring rod 7012 are meshed to reversely rotate, so that the mushroom stems can be turned over in a staggered mode, and each mushroom stem can be broken up and cleaned completely during cleaning.

First heating ring 404 is that annular equidistance is provided with eight, can realize even heat supply, and the heat source when guaranteeing to heat stoving and baking is even.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. An edible mushroom stem dried meat floss aroma-extracting type integrated circulating production device comprises a bottom frame (1), an outer frame (2) and a feeding mechanism (3), and is characterized by further comprising a baking aroma-extracting mechanism (4), a circulating linkage valve control mechanism (5), a control screen (6) and a circulating processing mechanism (7); the top end of the underframe (1) is welded with the outer frame (2); a feeding mechanism (3) is arranged on the left side of the top end of the outer frame (2); a baking and fragrance-raising mechanism (4) is arranged at the bottom in the outer frame (2); a circulating linkage valve control mechanism (5) is arranged at the left side in the outer frame (2); a control screen (6) is arranged in the middle of the right end; a circular processing mechanism (7) is arranged on the right side in the outer frame (2).

2. The integrated recycling production equipment for the flavor enhancement of the dried mushroom stem and dried meat floss of the edible fungi as claimed in claim 1, wherein the baking flavor enhancement mechanism (4) comprises an outer barrel cabin (401), a temperature sensor (402), a sandwich barrel cabin (403), a first heating ring (404), an inner barrel cabin (405), a first driving wheel (406), a wave stirring rod (407), a first micro push rod (408), a leakage net ring (409), a fitting block (4010), a switching mechanism (4011), a water pump (4012), a gas collecting pipe (4013), a pre-cooking cabin (4014), a second heating ring (4015), a first electromagnetic valve (4016) and a first guide plate (4017); a temperature sensor (402) is arranged in the middle of the top end of the outer cylinder cabin (401); an interlayer barrel cabin (403) is arranged on the inner ring of the outer barrel cabin (401); a first heating ring (404) is arranged at the top of the left inside of the outer barrel cabin (401), and the first heating ring (404) is positioned at the top of the interlayer barrel cabin (403); an inner barrel cabin (405) is arranged on the inner ring of the outer barrel cabin (401), and the inner barrel cabin (405) is positioned on the inner ring of the interlayer barrel cabin (403); the middle part of the front end of the outer cylinder cabin (401) is rotationally connected with a first driving wheel (406); the left bottom in the outer barrel cabin (401) is welded with a first miniature push rod (408); the middle part in the inner cylinder cabin (405) is provided with a wave stirring rod (407), and the front end of the wave stirring rod (407) is connected with a first driving wheel (406); the right top end of the first micro push rod (408) is welded with the net leaking ring (409); the right end of the net leaking ring (409) is welded with the attaching block (4010), and the outer ring of the attaching block (4010) is connected with the interlayer barrel cabin (403); the top of the right middle part of the inner cylinder cabin (405) is inserted into the switching mechanism (4011); the right middle bottom of the inner cylinder cabin (405) is inserted with the gas collecting pipe (4013); the right side of the switching mechanism (4011) is inserted into the water pump (4012); the right side of the outer surface of the water pump (4012) is inserted into the pre-cooking cabin (4014); a first electromagnetic valve (4016) is arranged on the left side of the top of the gas collecting pipe (4013); a second heating ring (4015) is arranged on the inner ring of the pre-cooking cabin (4014), the top of the pre-cooking cabin (4014) is mutually attached to a first guide plate (4017), and the right side of the first guide plate (4017) is connected with a first electromagnetic valve (4016); the front middle part and the rear middle part of the outer barrel cabin (401) are connected with the outer frame (2); the outer surface of the first driving wheel (406) is connected with a circulating linkage valve control mechanism (5); the middle part of the outer surface of the switching mechanism (4011) is connected with the outer frame (2); the top of the outer surface of the pre-cooking cabin (4014) is connected with the outer frame (2); the top of the first guide plate (4017) is connected with the circular processing mechanism (7).

3. The integrated recycling production equipment for flavor enhancement of the edible mushroom stem dried meat floss of claim 2, the control device is characterized in that a cyclic linkage valve control mechanism (5) comprises a variable speed motor (501), a second transmission wheel (502), a third transmission wheel (503), a fourth transmission wheel (504), a fifth transmission wheel (505), a first stressing rod (506), a first transmission rod (507), a sixth transmission wheel (508), a first gear (509), a first toothed bar (5010), a limiting plate (5011), a sliding rail (5012), a first electromagnet (5013), a second electromagnet (5014), a baffle (5015), a second micro push rod (5016), a contact block (5017), a second transmission rod (5018), a sleeve block (5019), a third transmission rod (5020), a seventh transmission wheel (5021), a second gear (5022), a second toothed bar (5023), a second stressing rod (5024) and an eighth transmission wheel (5025); the middle part of the front end of the variable speed motor (501) is rotationally connected with a second driving wheel (502); the top of the outer surface of the second driving wheel (502) is in transmission connection with a third driving wheel (503); the top of the outer surface of the third driving wheel (503) is in transmission connection with a fourth driving wheel (504); the right top of the outer surface of the fourth driving wheel (504) is in transmission connection with a fifth driving wheel (505); the rear middle part of the fifth driving wheel (505) is rotationally connected with the first stressing rod (506); a first transmission rod (507) is arranged in the front middle part of the fifth transmission wheel (505); the bottom of the outer surface of the fifth driving wheel (505) is in driving connection with a sixth driving wheel (508); a second micro push rod (5016) is arranged at the bottom of the left side of the first transmission rod (507); a second transmission rod (5018) is arranged at the top of the left side of the first transmission rod (507); the rear end axle center of the sixth transmission wheel (508) is inserted with the first gear (509); the bottom end of the first gear (509) is meshed with the first rack (5010); the rear side of the first rack (5010) is welded with a limiting plate (5011); the bottom of the outer surface of the first rack (5010) is in sliding connection with the sliding rail (5012); a first electromagnet (5013) is arranged at the right end of the first rack (5010); the right end of the first electromagnet (5013) is provided with a second electromagnet (5014); a baffle (5015) is arranged at the right end of the second electromagnet (5014); the bottom end of the variable speed motor (501) is connected with the outer frame (2); the axle center of the third driving wheel (503) is connected with the outer frame (2); the axle center of the fourth driving wheel (504) is connected with the outer frame (2); the axle center of a fifth driving wheel (505) is connected with the outer frame (2); the rear shaft center of the first stress application rod (506) is connected with the outer frame (2); the left axle center of the first transmission rod (507) is connected with the outer frame (2); the axle center of the sixth transmission wheel (508) is connected with the outer frame (2); the bottom end of the sliding rail (5012) is connected with the outer frame (2); the right side of the outer surface of the baffle (5015) is connected with a circular processing mechanism (7); the left axis of the third transmission rod (5020) is connected with the outer frame (2); the right end of the second stressing rod (5024) is connected with the circular processing mechanism (7); the rear end axle center of the eighth driving wheel (5025) is connected with the circular processing mechanism (7).

4. The integrated recycling production equipment for the flavor enhancement of the dried meat floss with mushroom stems of the edible fungi as claimed in claim 3, wherein the recycling processing mechanism (7) comprises a feeding hole (701), a material cabin (702), a discharging stirring rod (703), a discharging connecting pipe (704), a pre-feeding pipe (705), a cleaning cabin (706), a water discharging hole (707), a water inlet (708), a special-shaped driving wheel (709), a cleaning stirring rod (7010), a special-shaped meshing wheel (7011), a reverse stirring rod (7012), a second guide plate (7013) and a soaking cabin (7014); the bottom end of the feed port (701) is welded with the material cabin (702); the middle part in the material cabin (702) is welded with the discharging stirring rod (703); the right side of the bottom end of the material cabin (702) is spliced with the discharging connecting pipe (704); the right side of the discharging connecting pipe (704) is sleeved with a pre-feeding pipe (705); a cleaning cabin (706) is arranged at the bottom end of the pre-feeding pipe (705); the left top of the cleaning cabin (706) is inserted with a water outlet (707); the right top of the cleaning cabin (706) is inserted into the water inlet (708); the middle right side of the front end of the cleaning cabin (706) is rotationally connected with a special-shaped transmission wheel (709); the right side of the middle part in the cleaning cabin (706) is rotationally connected with a cleaning stirring rod (7010), and the middle part of the front end of the cleaning stirring rod (7010) is connected with a special-shaped transmission wheel (709); the middle left side of the front end of the cleaning cabin (706) is rotationally connected with a special-shaped meshing wheel (7011); the left side of the inner middle part of the front end of the cleaning cabin (706) is rotationally connected with a reverse stirring rod (7012), and the middle part of the front end of the reverse stirring rod (7012) is connected with a special-shaped meshing wheel (7011); the bottom end of the cleaning cabin (706) is welded with the second guide plate (7013); the bottom of the outer surface of the second guide plate (7013) is mutually attached to the soaking cabin (7014); the top of the outer surface of the material cabin (702) is connected with the outer frame (2); the axle center of the front end of the discharging stirring rod (703) is connected with a circulating linkage valve control mechanism (5); the middle part of the front end and the middle part of the rear end of the outer surface of the cleaning cabin (706) are connected with the outer frame (2); the front end axle center of the special-shaped transmission wheel (709) is connected with a cleaning stirring rod (7010) and a circulating linkage valve control mechanism (5); the top of the outer surface and the middle parts of the front end and the rear end of the soaking cabin (7014) are connected with the outer frame (2).

5. The integrated recycling production equipment for flavor enhancement of dried meat floss with mushroom stems as claimed in claim 4, wherein the switching mechanism (4011) comprises a first switching tube (401101), a second solenoid valve (401102), a second switching tube (401103), a switching port (401104), a sleeve port (401105), a third micro push rod (401106), a hose (401107), a fourth micro push rod (401108), a fixing ring (401109) and a third switching tube (4011010); the right side of the first adapter tube (401101) is spliced with a second electromagnetic valve (401102); the right side of the second electromagnetic valve (401102) is spliced with a second adapter tube (401103); the right end of the second adapter tube (401103) is welded with the adapter port (401104); the outer surface of the adapter port (401104) is sleeved with the sleeve port (401105); the right side of the top end of the outer surface of the sleeve opening (401105) is welded with a third micro push rod (401106); the right side of the sleeve opening (401105) is sleeved with a hose (401107); the right side of the bottom end of the outer surface of the sleeve opening (401105) is welded with a fourth micro push rod (401108); the right end of the third micro push rod (401106) is welded with the fixing ring (401109), and the left bottom end of the fixing ring (401109) is connected with the fourth micro push rod (401108); the right side of the hose (401107) is sleeved and connected with a third adapter tube (4011010) in an inserting mode; the outer surface of the first adapter tube (401101) is connected with the inner cylinder cabin (405); the middle part of the outer surface of the second adapter tube (401103) is connected with the outer frame (2); the right side of the outer surface of the third adapter pipe (4011010) is connected with a water pump (4012).

6. The integrated circular production equipment for edible mushroom stem and dried meat floss flavor extraction of claim 5, wherein the second micro push rod (5016) and the second transmission rod (5018) are fixed and rotate synchronously; the third transmission rod (5020) inclines by ten degrees from left to right when not moving.

7. The integrated circulation production equipment for the flavor enhancement of the dried meat floss with mushroom stems as claimed in claim 6, wherein two sixth transmission wheels (508), two first gears (509), two first rack bars (5010), two sliding rails (5012), two first electromagnets (5013), two second electromagnets (5014) and two baffles (5015) are respectively arranged at the middle part and the bottom part of the right side of the circulation linkage valve control mechanism (5).

8. The integrated circulation production equipment for edible mushroom stem dried meat floss aroma enhancement according to claim 7, wherein when the movement of the special-shaped transmission wheel (709) and the cleaning stirring rod (7010) rotates forwards, the corresponding special-shaped meshing wheel (7011) and the reverse rotation stirring rod (7012) are meshed for reverse rotation.

9. The integrated circulation production equipment for the flavor enhancement of the dried meat floss with mushroom stems of edible fungi as claimed in claim 8, wherein eight first heating rings (404) are arranged in an annular shape at equal intervals.