CN117958466A - Dried beancurd stick production molding equipment under micropressure steam condition - Google Patents

Abstract

The invention discloses dried beancurd stick production forming equipment under a micro-pressure steam condition, and relates to the technical field of dried beancurd stick production. This kind of dried beancurd stick production former under micropressure steam condition, including bottom plate, steam boiler, dried beancurd stick shaping groove and the steam tank that set up on the former body, still include: the waste heat box, fixedly connected with backup pad between Yu Rexiang and the bottom plate, and the waste heat box internal fixation inserts and is equipped with the heating mantle that a plurality of hollows set up, the heating mantle includes the inclined plane that two symmetries set up, and fixedly connected with connecting pipe between two adjacent heating hoods. The dried beancurd stick production molding equipment under the micro-pressure steam condition is convenient for collecting condensed water and simultaneously is convenient for filtering and collecting soot; the filter screen can be automatically cleaned, so that the filtering efficiency and the filtering effect of the filter screen are ensured; the waste heat in the flue gas can be utilized to preheat steam and condensed water, so that heat waste is avoided, heating efficiency can be improved, and the device is more energy-saving and environment-friendly.

Description

Dried beancurd stick production molding equipment under micropressure steam condition

Technical Field

The invention relates to the technical field of dried beancurd stick production, in particular to dried beancurd stick production forming equipment under a micro-pressure steam condition.

Background

Dried beancurd sticks, also called beancurd sheets or bean curd sheets, are films solidified on the surfaces of boiled soybean milk and can be eaten fresh or dried in the sun, the process comprises peeling, soaking, mixing, pulping, filtering to remove residues, boiling, peeling to extract dried beancurd sticks, drying to obtain dried beancurd sticks, the pulp boiling and film picking of dried beancurd sticks processing are a key link of dried beancurd sticks manufacture, a pressure-bearing steam heating mode is a mode of mass production and dried beancurd sticks processing, micro-pressure steam conditions required by forming equipment can be generated, and the structure of the mode mainly comprises: pressure-bearing steam boiler, dried beancurd stick forming tank, steam tank,

Steam pipe. The connection mode of the structure is that the micro-pressure steam generated by the steam boiler is conveyed into the cavity of the steam tank through the steam pipe to heat the bottom of the dried beancurd stick forming tank.

However, when the conventional dried beancurd stick production forming equipment under the micropressure steam condition is used, the pressure-bearing steam boiler generally adopts coal and biomass as fuels, smoke is generated, the smoke is inconvenient to filter and collect, meanwhile, the smoke contains more waste heat, heat is wasted by direct discharge, condensate water is easily generated in a steam tank when the steam is heated, the cleaning and the collection are not only convenient, but also the heat in the steam can be absorbed, the heat is wasted, and the energy conservation and the environmental protection are not enough.

Disclosure of Invention

The invention aims to provide dried beancurd stick production forming equipment under the condition of micro-pressure steam so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: dried beancurd stick production former under micropressure steam condition, including bottom plate, steam boiler, dried beancurd stick shaping groove and the steam tank that set up on former body, still include:

The heating device comprises a waste heat box, wherein a supporting plate is fixedly connected between Yu Rexiang and a bottom plate, a plurality of heating covers which are arranged in a hollow mode are fixedly inserted in the waste heat box, the heating covers comprise two inclined planes which are symmetrically arranged, a connecting pipe is fixedly connected between two adjacent heating covers, a flue gas pipe is fixedly connected between the heating cover and a steam boiler at the lowest position, a flue gas exhaust pipe is fixedly connected to the side wall of the heating cover at the highest position, a steam pipe is fixedly connected between the steam boiler and a steam tank, an air return pipe is fixedly connected between the steam tank and the waste heat box, and a circulating pipe is fixedly connected between Yu Rexiang and the steam boiler;

The recovery mechanism is used for recovering condensed water in the steam tank and is arranged at the bottom of the steam tank;

the filtering mechanism is used for filtering the smoke exhausted by the smoke exhaust pipe and is arranged at the other end of the smoke exhaust pipe;

The vibration mechanism is used for vibrating the bottom of the steam tank and is arranged at the bottom of the steam tank.

Preferably, the recovery mechanism is arranged in a collecting tank at the bottom of the steam tank, the bottom of the collecting tank and the top of the waste heat tank are fixedly connected with a recovery pipe, the top of the recovery pipe is fixedly connected with two symmetrically arranged first T-shaped guide rods, the side wall of each first T-shaped guide rod is sleeved with a floating plate, and the steam tank is close to the side wall of the steam pipe and is fixedly connected with a baffle plate.

Preferably, the filter mechanism comprises a filter box fixedly connected with the other end of the smoke exhaust pipe, an air outlet pipe is fixedly connected with the other side of the filter box, a collecting box is connected in the filter box in a sliding mode, a supporting block is fixedly connected in the air outlet pipe, a filter screen is connected to the side wall of the supporting block through rotation of a first rotating shaft, a scraping plate is fixedly connected to the inner side wall of the filter box, and the rotation of the first rotating shaft is driven through a driving mechanism.

Preferably, the driving mechanism comprises a gear fixedly sleeved on the side wall of the first rotating shaft, and the inside of the air outlet pipe is connected with a rack through a moving mechanism.

Preferably, the moving mechanism comprises a moving rod inserted into the side wall of the air outlet pipe, the moving rod is connected with the side wall of the air outlet pipe through a first reset mechanism, the side wall of the air return pipe is connected with a second rotating shaft through a power mechanism, and the side wall of the second rotating shaft is fixedly connected with a plurality of first rubber bulges arranged in an array.

Preferably, the first reset mechanism comprises two symmetrically arranged second T-shaped guide rods fixedly connected to the side wall of the air outlet pipe, a connecting block is sleeved on the side wall of the second T-shaped guide rod, the connecting block is fixed to the side wall of the movable rod, and a first spring is sleeved on the side wall of the second T-shaped guide rod.

Preferably, the power mechanism comprises a fixed plate fixedly connected to the inner side wall of the muffler, the side wall of the fixed plate is rotationally connected with a fan through a third rotating shaft, the end part of the third rotating shaft is fixedly connected with a driving bevel gear, and the lower end of the second rotating shaft penetrates into the muffler and is fixedly sleeved with a driven bevel gear.

Preferably, the vibration mechanism comprises a connecting plate fixedly connected to the bottom of the steam tank, the bottom of the steam tank is connected with a movable plate through a second reset mechanism, the side wall of the movable plate is fixedly connected with a plurality of knocking pins arranged in an array, and the movement of the movable plate is pushed by a pushing mechanism.

Preferably, the second reset mechanism comprises two symmetrically arranged third T-shaped guide rods fixedly connected to the bottom of the steam tank, a moving block is sleeved on the side wall of the third T-shaped guide rod, the moving block is fixed with the side wall of the moving plate, and a second spring is sleeved on the side wall of the third T-shaped guide rod.

Preferably, the pushing mechanism comprises a rotating disc fixedly connected to the upper end of the second rotating shaft, and the side wall of the rotating disc is fixedly connected with a plurality of second rubber bulges arranged in an array.

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

This kind of dried beancurd stick production former under micropressure steam condition, through setting up recovery mechanism etc., when using, the micropressure steam that former body produced gets into the steam groove through the steam pipe evenly dispersed to the cavity in, carry out the heat exchange with dried beancurd stick shaping groove bottom, produce comdenstion water inflow collecting vat in gathering, the kickboard can upwards move along first T shape guide arm under buoyancy effect, thereby open the upper end of recovery tube, at this moment, the comdenstion water gets into the top of waste heat tank through the recovery tube, simultaneously, steam after the heat transfer gets into in the waste heat tank through the muffler, steam and the condensate water that gets into in the waste heat tank move downwards along between the inclined plane of heating mantle, and, flue gas that produces in the steam boiler gets into in the heating mantle through the flue gas pipe, and flow down through the connecting pipe, thereby can heat a plurality of heating hoods, and then preheat steam and comdenstion water through the heating mantle, steam and comdenstion water through circulating pipe entering steam boiler in cyclic utilization, so reciprocating, waste heat in can utilize and preheat steam and the waste heat, and can improve the energy-conserving heating efficiency, and energy-saving more.

This kind of dried beancurd stick production former under micropressure steam condition, through setting up filtering mechanism etc., flue gas after the waste heat utilization gets into the rose box through the exhaust pipe, and discharge through the outlet duct after the filtration effect of filter screen, meanwhile, after the steam after the heat transfer passes through the muffler, can drive the fan and rotate, the rotation of fan drives the rotation of third pivot and initiative bevel gear, and then drive the rotation of driven bevel gear and second pivot, when the tip of carriage release lever offsets with the bellied lateral wall of first rubber, promote carriage release lever and rack and remove, simultaneously, first spring is compressed, when the tip of carriage release lever passes over the bellied lateral wall of first rubber, the rack can remove under the effect of first spring and reset, so reciprocating, can make the rack carry out reciprocating motion, and drive the filter screen through gear and first pivot and reciprocate, when the filter screen rotates, the scraper blade can strike off and fall into the collection box to the cigarette ash that gathers on the filter screen surface, thereby be convenient for filter and collect the filter screen, and can carry out automatic clearance and effect to the filter screen of assurance.

This kind of dried beancurd stick production former under micropressure steam condition through setting up vibration mechanism etc, when the second pivot rotates, drive the rolling disc and rotate in step, when the protruding lateral wall with the movable plate of second rubber offsets, promote the movable plate and remove, simultaneously, the second spring is compressed, when the protruding lateral wall of crossing the movable plate of second rubber, the movable plate can remove under the effect of second spring and reset, so reciprocating, can make the movable plate reciprocate, and then drive the knocking pin and reciprocate, thereby make the knocking pin carry out reciprocating knocking vibrations to the lateral wall of connecting plate, and transmit the steam groove with vibrations, avoid the comdenstion water adhesion at the lateral wall of steam groove, thereby be convenient for the comdenstion water get into collect in the groove, guarantee efficiency and the effect of collecting.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the position of the filtering mechanism according to the present invention;

FIG. 3 is a schematic view of the position of the recovery mechanism of the present invention;

FIG. 4 is a schematic view of a partially cut-away structure of the waste heat box of the present invention;

FIG. 5 is an enlarged schematic view of the structure shown at A in FIG. 1;

FIG. 6 is an enlarged schematic view of the structure shown at B in FIG. 2;

FIG. 7 is an enlarged schematic view of FIG. 3C;

FIG. 8 is an enlarged schematic view of the structure of FIG. 4 at D;

FIG. 9 is an enlarged schematic view of the structure of FIG. 8 at E;

FIG. 10 is an enlarged schematic view of the structure shown at F in FIG. 8;

fig. 11 is an enlarged schematic view of the structure at G in fig. 10.

In the figure: 1. a molding apparatus body; 101. a bottom plate; 102. a steam boiler; 103. a dried bean forming groove; 104. a steam tank; 2. a recovery mechanism; 201. a collection tank; 202. a recovery pipe; 203. a first T-shaped guide bar; 204. a floating plate; 205. a baffle; 3. a filtering mechanism; 301. a filter box; 302. an air outlet pipe; 303. a filter screen; 304. a scraper; 305. a collection box; 306. a support block; 307. a first rotating shaft; 4. a driving mechanism; 401. a gear; 402. a rack; 5. a moving mechanism; 501. a second rotating shaft; 502. a first rubber protrusion; 503. a moving rod; 6. a first reset mechanism; 601. a second T-shaped guide bar; 602. a connecting block; 603. a first spring; 7. a power mechanism; 701. a fixing plate; 702. a third rotating shaft; 703. a fan; 704. a drive bevel gear; 705. a driven bevel gear; 8. a vibration mechanism; 801. a connecting plate; 802. a moving plate; 803. knocking the pin; 9. a second reset mechanism; 901. a third T-shaped guide bar; 902. a second spring; 903. a moving block; 10. a pushing mechanism; 1001. a rotating disc; 1002. a second rubber protrusion; 11. a steam pipe; 12. a support plate; 13. a waste heat box; 14. an air return pipe; 15. a circulation pipe; 16. a heating mantle; 1601. an inclined plane; 17. a connecting pipe; 18. a smoke exhaust pipe; 19. a flue pipe.

Detailed Description

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

Referring to fig. 1 to 11, the present invention provides a technical solution: the dried beancurd stick production molding equipment under the condition of micro-pressure steam comprises a bottom plate 101, a steam boiler 102, a dried beancurd stick molding groove 103 and a steam groove 104 which are arranged on a molding equipment body 1, and further comprises:

The waste heat boiler comprises a waste heat tank 13, a supporting plate 12 is fixedly connected between the waste heat tank 13 and a bottom plate 101, a plurality of heating hoods 16 which are arranged in a hollow mode are fixedly inserted in the waste heat tank 13, each heating hood 16 comprises two inclined planes 1601 which are symmetrically arranged, a connecting pipe 17 is fixedly connected between two adjacent heating hoods 16, a flue pipe 19 is fixedly connected between the lowest heating hood 16 and a steam boiler 102, a flue pipe 18 is fixedly connected to the side wall of the uppermost heating hood 16, a steam pipe 11 is fixedly connected between the steam boiler 102 and a steam tank 104, an air return pipe 14 is fixedly connected between the steam tank 104 and the waste heat tank 13, and a circulating pipe 15 is fixedly connected between the waste heat tank 13 and the steam boiler 102;

A recovery mechanism 2, wherein the recovery mechanism 2 for recovering condensed water in the steam tank 104 is arranged at the bottom of the steam tank 104;

The filtering mechanism 3 is used for filtering the smoke exhausted by the smoke exhaust pipe 18, and the filtering mechanism 3 is arranged at the other end of the smoke exhaust pipe 18;

the vibration mechanism 8 is arranged at the bottom of the steam tank 104, so that condensed water is conveniently collected, and meanwhile, soot is conveniently filtered and collected; the filter screen 303 can be automatically cleaned, so that the filtering efficiency and effect of the filter screen are ensured; the waste heat in the flue gas can be utilized to preheat steam and condensed water, so that heat waste is avoided, heating efficiency can be improved, and the device is more energy-saving and environment-friendly.

The recovery mechanism 2 is arranged on the collecting tank 201 at the bottom of the steam tank 104, the bottom of the collecting tank 201 and the top of the waste heat tank 13 are fixedly connected with a recovery pipe 202, the top of the recovery pipe 202 is fixedly connected with two symmetrically arranged first T-shaped guide rods 203, the side wall of the first T-shaped guide rods 203 is sleeved with a floating plate 204, the steam tank 104 is close to the side wall of the steam pipe 11 and is fixedly connected with a baffle 205, when the recovery mechanism is used, micropressure steam generated by the forming equipment body 1 enters the steam tank 104 through the steam pipe 11 and is uniformly dispersed into a cavity, heat exchange is carried out with the bottom of the dried beancurd stick forming tank 103, condensed water flows into the collecting tank 201 to gather, the floating plate 204 can move upwards along the first T-shaped guide rods 203 under the buoyancy effect, so that the upper end of the recovery pipe 202 is opened, and at the moment, the condensed water enters the top of the waste heat tank 13 through the recovery pipe 202.

The filtering mechanism 3 comprises a filtering box 301 fixedly connected to the other end of the smoke exhaust pipe 18, an air outlet pipe 302 is fixedly connected to the other side of the filtering box 301, a collecting box 305 is connected to the filtering box 301 in a sliding mode, a supporting block 306 is fixedly connected to the air outlet pipe 302, a filter screen 303 is connected to the side wall of the supporting block 306 in a rotating mode through a first rotating shaft 307, a scraping plate 304 is fixedly connected to the inner side wall of the filtering box 301, the first rotating shaft 307 is driven to rotate through a driving mechanism 4, smoke after waste heat utilization enters the filtering box 301 through the smoke exhaust pipe 18 and is discharged through the air outlet pipe 302 after the filtering effect of the filter screen 303, meanwhile, the driving mechanism 4 drives the first rotating shaft 307 and the filter screen 303 to rotate, when the filter screen 303 rotates, the scraping plate 304 can scrape and fall into the collecting box 305 to collect the dust, filtering and collecting the dust can be conducted conveniently, and the filter screen 303 can be cleaned automatically, and filtering efficiency and filtering effect of the filter screen 303 are guaranteed.

The driving mechanism 4 comprises a gear 401 fixedly sleeved on the side wall of the first rotating shaft 307, a rack 402 is connected in the air outlet pipe 302 through a moving mechanism 5, the rack 402 is made to reciprocate through the moving mechanism 5, and the filter screen 303 is driven to reciprocate through the gear 401 and the first rotating shaft 307.

The moving mechanism 5 comprises a moving rod 503 inserted into the side wall of the air outlet pipe 302, the moving rod 503 is connected with the side wall of the air outlet pipe 302 through a first reset mechanism 6, the side wall of the air return pipe 14 is connected with a second rotating shaft 501 through a power mechanism 7, the side wall of the second rotating shaft 501 is fixedly connected with a plurality of first rubber bulges 502 arranged in an array, when the steam subjected to heat exchange passes through the air return pipe 14, the power mechanism 7 drives the second rotating shaft 501 to rotate, and when the end part of the moving rod 503 abuts against the side wall of the first rubber bulges 502, the moving rod 503 and the rack 402 are pushed to move.

The first reset mechanism 6 comprises two symmetrically arranged second T-shaped guide rods 601 fixedly connected to the side wall of the air outlet pipe 302, connecting blocks 602 are sleeved on the side wall of the second T-shaped guide rods 601, the connecting blocks 602 are fixed to the side wall of the movable rod 503, and first springs 603 are sleeved on the side wall of the second T-shaped guide rods 601, so that the movable rod 503 can be guided and reset.

The power mechanism 7 comprises a fixed plate 701 fixedly connected to the inner side wall of the air return pipe 14, the side wall of the fixed plate 701 is rotationally connected with a fan 703 through a third rotating shaft 702, the end part of the third rotating shaft 702 is fixedly connected with a drive bevel gear 704, the lower end of the second rotating shaft 501 penetrates into the air return pipe 14 and is fixedly sleeved with a driven bevel gear 705, when heat exchange steam passes through the air return pipe 14, the fan 703 can be driven to rotate, and the rotation of the fan 703 drives the rotation of the third rotating shaft 702 and the drive bevel gear 704, so that the driven bevel gear 705 and the second rotating shaft 501 are driven to rotate.

The vibration mechanism 8 comprises a connecting plate 801 fixedly connected to the bottom of the steam tank 104, the bottom of the steam tank 104 is connected with a movable plate 802 through a second reset mechanism 9, the side wall of the movable plate 802 is fixedly connected with a plurality of knocking pins 803 arranged in an array, the movable plate 802 is pushed through a pushing mechanism 10, the movable plate 802 is made to reciprocate through the pushing mechanism 10 and the second reset mechanism 9, and then the knocking pins 803 are driven to reciprocate, so that the knocking pins 803 can shake the side wall of the connecting plate 801 in a reciprocating mode, vibration is transmitted to the steam tank 104, condensate water is prevented from adhering to the side wall of the steam tank 104, and therefore the condensate water can enter the collecting tank 201 to be collected conveniently, and the collecting efficiency and effect are guaranteed.

The second reset mechanism 9 comprises two symmetrically arranged third T-shaped guide rods 901 fixedly connected to the bottom of the steam tank 104, a moving block 903 is sleeved on the side wall of the third T-shaped guide rods 901, the moving block 903 is fixed with the side wall of the moving plate 802, and a second spring 902 is sleeved on the side wall of the third T-shaped guide rods 901 to guide and reset the movement of the moving plate 802.

The pushing mechanism 10 includes a rotating disc 1001 fixedly connected to the upper end of the second rotating shaft 501, and a plurality of second rubber protrusions 1002 arranged in an array are fixedly connected to the side wall of the rotating disc 1001, when the second rotating shaft 501 rotates, the rotating disc 1001 is driven to rotate synchronously, and when the second rubber protrusions 1002 are propped against the side wall of the moving plate 802, the moving plate 802 is pushed to move.

Working principle: when the device is used, the micro-pressure steam generated by the forming device body 1 enters the steam tank 104 through the steam pipe 11 and is uniformly dispersed into the cavity, heat exchange is carried out with the bottom of the dried beancurd stick forming tank 103, condensed water is generated and flows into the collecting tank 201 to be gathered, the floating plate 204 can move upwards along the first T-shaped guide rod 203 under the action of buoyancy, so that the upper end of the recovery pipe 202 is opened, at the moment, the condensed water enters the top of the waste heat tank 13 through the recovery pipe 202, meanwhile, the heat exchanged steam enters the waste heat tank 13 through the muffler pipe 14, the steam entering the waste heat tank 13 and the condensed water can move downwards along the inclined plane 1601 of the heating cover 16, and flue gas generated in the steam boiler 102 enters the heating cover 16 through the flue gas pipe 19 and flows upwards from below through the connecting pipe 17, so that the heating covers 16 can be heated, the preheated steam and the condensed water can be recycled through the heating cover 16, the preheated steam and the condensed water enter the steam boiler 102 through the circulating pipe 15, so that waste heat and the waste in the flue gas can be utilized, the waste heat and the heat can be avoided, the energy can be more effectively saved, and the energy can be more saved;

The flue gas after waste heat utilization enters the filter box 301 through the smoke exhaust pipe 18 and is discharged through the air outlet pipe 302 after the filtering effect of the filter screen 303, meanwhile, after the heat exchanged steam passes through the air return pipe 14, the fan 703 can be driven to rotate, the third rotating shaft 702 and the driving bevel gear 704 are driven to rotate by the rotation of the fan 703, the driven bevel gear 705 and the second rotating shaft 501 are driven to rotate, when the end part of the moving rod 503 abuts against the side wall of the first rubber bulge 502, the moving rod 503 and the rack 402 are pushed to move, meanwhile, the first spring 603 is compressed, when the end part of the moving rod 503 passes over the side wall of the first rubber bulge 502, the rack 402 can move and reset under the action of the first spring 603, so reciprocation can enable the rack 402 to reciprocate, and the filter screen 303 is driven to reciprocate through the gear 401 and the first rotating shaft 307, when the filter screen 303 rotates, the scraper 304 can scrape and fall into the collecting box 305 to collect soot accumulated on the surface of the filter screen 303, filtering and collecting the soot can be convenient for automatically cleaning the filter screen 303, and the filtering efficiency and the filtering effect of the filter screen can be ensured;

And, when the second pivot 501 rotates, drive the rolling disc 1001 and rotate in step, when the second rubber protrusion 1002 offsets with the lateral wall of movable plate 802, promote movable plate 802 and remove, simultaneously, second spring 902 is compressed, when the second rubber protrusion 1002 passes over the lateral wall of movable plate 802, movable plate 802 can remove the reset under the effect of second spring 902, so reciprocate, can make movable plate 802 reciprocate, and then drive the knocking pin 803 reciprocate, thereby make the knocking pin 803 carry out reciprocating knocking vibrations to the lateral wall of connecting plate 801, and transmit the vibrations to steam tank 104, avoid the comdenstion water adhesion at the lateral wall of steam tank 104, thereby be convenient for the comdenstion water get into collecting in the collecting vat 201, guarantee the efficiency and the effect of collecting.

Claims (10)

1. Dried beancurd stick production former under micropressure steam condition, including bottom plate (101), steam boiler (102), dried beancurd stick shaping groove (103) and steam tank (104) that set up on former body (1), its characterized in that: further comprises:

The waste heat boiler comprises a waste heat box (13), a supporting plate (12) is fixedly connected between the waste heat box (13) and a bottom plate (101), a plurality of heating hoods (16) which are arranged in a hollow mode are fixedly inserted in the waste heat box (13), each heating hood (16) comprises two inclined planes (1601) which are symmetrically arranged, a connecting pipe (17) is fixedly connected between each two adjacent heating hoods (16), a flue gas pipe (19) is fixedly connected between the lowest heating hood (16) and a steam boiler (102), a flue gas exhaust pipe (18) is fixedly connected to the side wall of the uppermost heating hood (16), a steam pipe (11) is fixedly connected between the steam boiler (102) and a steam tank (104), a muffler (14) is fixedly connected between the steam tank (104) and the waste heat box (13), and a circulating pipe (15) is fixedly connected between the waste heat box (13) and the steam boiler (102);

A recovery mechanism (2), wherein the recovery mechanism (2) for recovering condensed water in the steam tank (104) is arranged at the bottom of the steam tank (104);

The filtering mechanism (3) is used for filtering the flue gas exhausted by the flue gas exhaust pipe (18), and the filtering mechanism (3) is arranged at the other end of the flue gas exhaust pipe (18);

And the vibration mechanism (8) is used for vibrating the bottom of the steam tank (104), and the vibration mechanism (8) is arranged at the bottom of the steam tank (104).

2. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam as claimed in claim 1, wherein: the recovery mechanism (2) is provided with a collecting tank (201) at the bottom of the steam tank (104), the bottom of the collecting tank (201) and the top of the waste heat tank (13) are fixedly connected with a recovery pipe (202), the top of the recovery pipe (202) is fixedly connected with two symmetrically arranged first T-shaped guide rods (203), the side wall of each first T-shaped guide rod (203) is sleeved with a floating plate (204), and the steam tank (104) is close to a baffle (205) fixedly connected with the side wall of the steam pipe (11).

3. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam as claimed in claim 1, wherein: the filter mechanism (3) comprises a filter box (301) fixedly connected to the other end of the smoke exhaust pipe (18), an air outlet pipe (302) is fixedly connected to the other side of the filter box (301), a collecting box (305) is connected to the filter box (301) in a sliding mode, a supporting block (306) is fixedly connected to the air outlet pipe (302), a filter screen (303) is connected to the side wall of the supporting block (306) through a first rotating shaft (307) in a rotating mode, a scraping plate (304) is fixedly connected to the inner side wall of the filter box (301), and the first rotating shaft (307) is driven through a driving mechanism (4).

4. A dried beancurd stick production forming device under a micropressure steam condition according to claim 3, characterized in that: the driving mechanism (4) comprises a gear (401) fixedly sleeved on the side wall of the first rotating shaft (307), and a rack (402) is connected in the air outlet pipe (302) through the moving mechanism (5).

5. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam as claimed in claim 4, wherein: the movable mechanism (5) comprises a movable rod (503) inserted into the side wall of the air outlet pipe (302), the movable rod (503) is connected with the side wall of the air outlet pipe (302) through a first reset mechanism (6), the side wall of the air return pipe (14) is connected with a second rotating shaft (501) through a power mechanism (7), and the side wall of the second rotating shaft (501) is fixedly connected with a plurality of first rubber bulges (502) arranged in an array.

6. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam according to claim 5, wherein: the first reset mechanism (6) comprises two symmetrically arranged second T-shaped guide rods (601) fixedly connected to the side wall of the air outlet pipe (302), connecting blocks (602) are sleeved on the side wall of the second T-shaped guide rods (601), the connecting blocks (602) are fixed to the side wall of the movable rod (503), and first springs (603) are sleeved on the side wall of the second T-shaped guide rods (601).

7. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam according to claim 5, wherein: the power mechanism (7) comprises a fixed plate (701) fixedly connected to the inner side wall of the air return pipe (14), the side wall of the fixed plate (701) is rotatably connected with a fan (703) through a third rotating shaft (702), the end part of the third rotating shaft (702) is fixedly connected with a driving bevel gear (704), and the lower end of the second rotating shaft (501) penetrates into the air return pipe (14) and is fixedly sleeved with a driven bevel gear (705).

8. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam according to claim 5, wherein: the vibration mechanism (8) comprises a connecting plate (801) fixedly connected to the bottom of the steam tank (104), the bottom of the steam tank (104) is connected with a moving plate (802) through a second reset mechanism (9), the side wall of the moving plate (802) is fixedly connected with a plurality of knocking pins (803) arranged in an array, and the moving of the moving plate (802) is pushed through a pushing mechanism (10).

9. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam as claimed in claim 8, wherein: the second reset mechanism (9) comprises two symmetrically arranged third T-shaped guide rods (901) fixedly connected to the bottom of the steam tank (104), moving blocks (903) are sleeved on the side walls of the third T-shaped guide rods (901), the moving blocks (903) are fixed with the side walls of the moving plates (802), and second springs (902) are sleeved on the side walls of the third T-shaped guide rods (901).

10. The apparatus for producing and shaping dried beancurd sticks under the condition of micro-pressure steam as claimed in claim 8, wherein: the pushing mechanism (10) comprises a rotating disc (1001) fixedly connected to the upper end of the second rotating shaft (501), and a plurality of second rubber protrusions (1002) arranged in an array are fixedly connected to the side wall of the rotating disc (1001).