CN115235217B - Flour finished product quick drying equipment and working method thereof - Google Patents

Abstract

The invention discloses flour finished product quick drying equipment and a working method thereof, the flour finished product quick drying equipment comprises a drying box, an air heater and a heating pipe, wherein the inner side of the right end of the drying box is communicated with an air outlet pipe, the air in the drying box is discharged through the air outlet pipe, the inner side of the drying box is fixedly connected with a drying plate, the inner side of the drying plate is provided with the heating pipe, the inner side of the drying plate is rotationally connected with a short connecting rod, the top end of the short connecting rod is fixedly connected with a placing screen plate, the placing screen plate is used for placing noodle clusters, and the inner side of the drying box is slidably connected with a diversion module.

Description

Flour finished product quick drying equipment and working method thereof

Technical Field

The invention relates to the technical field of flour finished product processing, in particular to flour finished product quick drying equipment and a working method thereof.

Background

Flour is a powdery substance ground by wheat, is the staple food in most areas in northern China, is a common flour finished product, is not easy to break, is rolled into annular noodle clusters for convenient storage, but is generally dried in a form of airing or hot air heating, so that heat gradually permeates from outside, the outer surface of the noodle clusters is better in drying effect, the position of the center of the noodle clusters is poorer in drying effect, the drying time is required to be increased, the heat completely permeates for drying, and the drying efficiency is low.

Disclosure of Invention

The invention aims to provide a flour finished product quick drying device and a working method thereof, which enable hot air to be blown from the center of a noodle mass, increase the permeation effect of heat in the center of the noodle mass, and realize quick drying so as to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a flour finished product quick drying equipment and method of operation thereof, includes stoving case, air heater and heating pipe, the rear end inboard of stoving case is provided with the chamber door, the left end fixedly connected with side fagging of stoving case supports the air heater through side fagging, the top fixedly connected with air heater of side fagging, the output and the inside intercommunication of stoving case of air heater, the inboard intercommunication of right-hand member of stoving case has the tuber pipe, realizes the discharge of stoving incasement air through the tuber pipe, the inboard fixedly connected with stoving board of stoving case, the inboard of stoving board is provided with the heating pipe, heats up the stoving board through the heating pipe, realizes the stoving, the inboard rotation of stoving board is connected with the short connecting rod, the fixedly connected with on the top of short connecting rod places the otter board, places the noodless through placing the otter board, the inboard sliding connection of stoving case has the reposition of redundant personnel module.

Further, an inlet is formed in the inner side of the left end of the flow distribution module, the shape of the output end of the air heater is matched with the shape of the inlet, an electro-hydraulic push rod is fixedly connected to the top end of the flow distribution module, the electro-hydraulic push rod is fixedly connected to the inner side of the drying box, the flow distribution module is driven to lift through the electro-hydraulic push rod, and a flow distribution head is communicated with the inner side of the bottom end of the flow distribution module.

Further, the left wall fixedly connected with of stoving case prevents the partial module, the inboard rotation of preventing the partial module is connected with long connecting rod, long connecting rod runs through the inboard of stoving board, the top fixedly connected with latch dish of long connecting rod, the equal fixedly connected with drive wheel subassembly of bottom of short connecting rod and long connecting rod, the outside of drive wheel subassembly is provided with drive belt, makes drive wheel subassembly rotate simultaneously through drive belt.

Further, the inside fixedly connected with deceleration module of left end of reposition of redundant personnel module, the left side main shaft end fixedly connected with pneumatic flabellum of deceleration module makes the latch dish of its bottom rotate behind hot-blast drive pneumatic flabellum through deceleration module the terminal fixedly connected with card fluted disc of below main shaft of deceleration module.

Further, the outside fixedly connected with antiskid ratchet of short connecting rod, antiskid ratchet rotates the inboard of connecting in the stoving board, the inboard of stoving board is provided with pawl subassembly, pawl subassembly corresponds each other with the antiskid ratchet, through the spacing of pawl subassembly to the antiskid ratchet, avoids short connecting rod free rotation.

Further, the inboard of reposition of redundant personnel head is provided with porous dish and air volume detection module, is located the top porous dish fixed connection in the inboard of reposition of redundant personnel head, is located the below porous dish rotates the inboard of connecting in the reposition of redundant personnel head, ventilation groove has been seted up to the inboard of porous dish, and hot-blast can pass porous dish via ventilation groove, the inboard sliding connection of reposition of redundant personnel module has unilateral tooth's socket frame, is located the below the tooth's socket has been seted up to the outer terminal surface of porous dish, unilateral tooth's socket frame passes through the tooth's socket and is located the porous dish meshing of below, drives the porous dish rotation that is located the below through the slip of unilateral tooth's socket frame.

Further, the inboard fixedly connected with electro-magnet and the transformation module of reposition of redundant personnel module, the electro-magnet passes through the wire and is connected with the transformation module, and the transformation module changes the voltage of electro-magnet to change the magnetic force of electro-magnet, the inboard sliding connection of reposition of redundant personnel module has the magnetic plate subassembly, the inboard fixedly connected with extension spring that resets of reposition of redundant personnel module, extension spring and magnetic plate subassembly fixed connection reset that resets the extension spring and make things convenient for the magnetic plate subassembly through the extension spring that resets.

Further, a working method of the flour finished product quick drying equipment comprises the following steps:

step 1, opening a box door, placing individual noodle clusters on a placing screen plate, closing the box door, starting a hot air blower to blow hot air into a drying box, starting a heating pipe, and performing permeation drying on the noodle clusters on the drying plate by heat.

And 2, controlling the electro-hydraulic push rod to extend, enabling hot air blown by the hot air blower to flow into the flow distribution module, and blowing out the hot air along the flow distribution head to the center position of the noodle mass.

And step 3, starting the electromagnet, changing the voltage of the electromagnet by the voltage transformation module, generating magnetic force change, attracting the magnetic plate assembly, driving the unilateral tooth socket frame to rotate the porous disc positioned below, and adjusting the air quantity of hot air blown by the flow dividing head.

Compared with the prior art, the noodle dough is heated and dried by the heating pipe and the air heater in a double effect, and the flow dividing module can divide the hot air blown by the air heater to blow the hot air to the central position of each noodle dough, so that the heat flow of the central position of the noodle dough is increased, the heat is permeated and dried from outside to inside, the noodle dough is dried more quickly, the noodle dough can be driven to rotate, an additional power mechanism is not needed, and the uniformity of the noodle dough when dried is ensured.

Compared with the prior art, the invention detects the air flow blown by the split heads through the air volume detection module, changes the voltage of the electromagnet through the voltage transformation module, changes the magnetic force of the electromagnet, drives the porous disc to rotate at different angles, changes the overlapping area of the ventilation grooves at the upper side and the lower side, adjusts the air volume blown by the split heads, ensures the same air volume blown by each split head, avoids the contact of unequal amounts of hot air with noodle clusters at different positions, and ensures the same drying progress of the noodle clusters at different positions.

Drawings

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the technical description of the present invention will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

Fig. 2 is a schematic diagram of the structure of fig. 1 at a.

Fig. 3 is a schematic diagram of the structure of fig. 1 at B according to the present invention.

Fig. 4 is a schematic view of the structure of fig. 1 at C according to the present invention.

Fig. 5 is a schematic view showing the internal structure of the drying plate according to the present invention.

FIG. 6 is a schematic view of a structure of a toothed disc according to the present invention.

Fig. 7 is a schematic structural diagram of the porous plate and the single-sided spline frame according to the present invention.

In the figure: 1. a drying box; 2. a door; 3. side support plates; 4. an air heater; 5. a drying plate; 6. heating pipes; 7. placing a screen plate; 8. a short connecting rod; 9. a drive wheel assembly; 10. a drive belt; 11. a long connecting rod; 12. an anti-deviation module; 13. a tooth clamping disc; 14. a deceleration module; 15. pneumatic fan blades; 16. a shunt module; 17. an electro-hydraulic push rod; 18. a shunt head; 19. a porous disc; 19b, a ventilation slot; 20. a single-sided tooth slot frame; 21. a magnetic plate assembly; 22. resetting the tension spring; 23. an electromagnet; 24. a transformation module; 25. the air quantity detection module; 26. an anti-slip ratchet; 27. a pawl assembly; 28. and (5) an air outlet pipe.

Detailed Description

The present invention will be further described with reference to the following embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort are intended to fall within the scope of the present invention.

Example 1

Referring to fig. 1-7, the invention provides a flour finished product quick drying device and a working method thereof, the flour finished product quick drying device comprises a drying box 1, an air heater 4 and a heating pipe 6, wherein a box door 2 is arranged at the inner side of the rear end of the drying box 1, a side supporting plate 3 is fixedly connected to the left end of the drying box 1, the air heater 4 is supported by the side supporting plate 3, the air heater 4 is fixedly connected to the top end of the side supporting plate 3, the output end of the air heater 4 is communicated with the inside of the drying box 1, an air outlet pipe 28 is communicated with the inner side of the right end of the drying box 1, the air in the drying box 1 is discharged through the air outlet pipe 28, a drying plate 5 is fixedly connected to the inner side of the drying box 1, the heating pipe 6 is arranged at the inner side of the drying plate 5, the drying plate 5 is heated through the heating pipe 6, a short connecting rod 8 is rotatably connected to the inner side of the drying plate 5, a placement screen 7 is fixedly connected to the top end of the short connecting rod 8, a noodle mass is placed by the placement screen 7, and a flow dividing module 16 is slidingly connected to the inner side of the drying box 1.

Specifically, an inlet is formed in the inner side of the left end of the flow distribution module 16, the shape of the output end of the air heater 4 is matched with the shape of the inlet, an electro-hydraulic push rod 17 is fixedly connected to the top end of the flow distribution module 16, the electro-hydraulic push rod 17 is fixedly connected to the inner side of the drying box 1, the flow distribution module 16 is driven to lift through the electro-hydraulic push rod 17, and a flow distribution head 18 is communicated with the inner side of the bottom end of the flow distribution module 16.

Specifically, the left wall fixedly connected with of stoving case 1 prevents partially module 12, prevent partially the inboard rotation of module 12 and be connected with long connecting rod 11, long connecting rod 11 runs through the inboard of stoving board 5, the top fixedly connected with latch dish 13 of long connecting rod 11, the equal fixedly connected with drive wheel subassembly 9 of bottom of short connecting rod 8 and long connecting rod 11, the outside of drive wheel subassembly 9 is provided with driving belt 10, makes drive wheel subassembly 9 rotate simultaneously through driving belt 10.

Specifically, the inside of the left end of the diverting module 16 is fixedly connected with a speed reducing module 14, the tail end of a left main shaft of the speed reducing module 14 is fixedly connected with a pneumatic fan blade 15, after the pneumatic fan blade 15 is driven to rotate by hot air, the latch disc 13 at the bottom end of the speed reducing module 14 is rotated, and the tail end of a lower main shaft of the speed reducing module 14 is fixedly connected with the latch disc 13.

Specifically, the outside fixedly connected with antiskid ratchet 26 of short connecting rod 8, antiskid ratchet 26 rotates the inboard of connecting in stoving board 5, the inboard of stoving board 5 is provided with pawl assembly 27, pawl assembly 27 corresponds each other with antiskid ratchet 26, through the spacing of pawl assembly 27 to antiskid ratchet 26, avoids short connecting rod 8 free rotation.

Specifically, the inside of reposition of redundant personnel head 18 is provided with porous dish 19 and air volume detection module 25, is located the top porous dish 19 fixed connection is in the inboard of reposition of redundant personnel head 18, is located the below porous dish 19 rotates the inboard of connecting in reposition of redundant personnel head 18, ventilation groove 19a has been seted up to the inboard of porous dish 19, and hot-blast can pass porous dish 19 through ventilation groove 19a, the inboard sliding connection of reposition of redundant personnel module 16 has unilateral tooth groove frame 20, is located the below porous dish 19's of below outer terminal surface has seted up the tooth groove, unilateral tooth groove frame 20 passes through the tooth groove and meshes with the porous dish 19 that is located the below, drives the porous dish 19 rotation that is located the below through the slip of unilateral tooth groove frame 20.

Specifically, the inboard fixedly connected with electro-magnet 23 and the vary voltage module 24 of reposition of redundant personnel module 16, electro-magnet 23 passes through the wire and is connected with vary voltage module 24, vary voltage module 24 to electro-magnet 23's magnetic force changes, the inboard sliding connection of reposition of redundant personnel module 16 has magnetic plate subassembly 21, the inboard fixedly connected with extension spring 22 that resets of reposition of redundant personnel module 16, extension spring 22 that resets and magnetic plate subassembly 21 fixed connection, make things convenient for the reset of magnetic plate subassembly 21 through extension spring 22 that resets.

By adopting the technical scheme: according to the invention, the heating pipe 6 and the air heater 4 are used for heating and drying the noodle clusters in double effects, and the flow dividing module 16 can be used for dividing the hot air blown by the air heater 4 to blow the hot air to the central position of each noodle cluster, so that the heat flow of the central position of the noodle cluster is increased, the heat is used for permeation and drying from outside to inside, the noodle clusters are dried more quickly, the noodle clusters can be driven to rotate, an additional power mechanism is not needed, and the uniformity of the dried noodle clusters is ensured; in the invention, the air flow blown by the flow dividing heads 18 is detected by the air flow detecting module 25, the voltage of the electromagnet 23 is changed by the voltage transformation module 24, so that the magnetic force of the electromagnet 23 is changed, the magnetic plate assembly 23 drives the porous disc 19 to rotate at different angles, the overlapping area of the ventilation grooves 19a on the upper side and the lower side is changed, the air flow blown by the flow dividing heads 18 is adjusted, the same air flow of the hot air blown by each flow dividing head 18 is ensured, the contact of different amounts of hot air with noodle clusters at different positions is avoided, and the drying progress of the noodle clusters at different positions is the same.

The working method of the flour finished product quick drying equipment provided by the invention comprises the following steps of: opening a box door 2, placing individual noodle clusters on a placing screen 7, enabling the noodle clusters to be arranged coaxially with the placing screen 7, closing the box door 2, avoiding free rotation of a short connecting rod 8 and the placing screen 7 under the limit of a pawl assembly 27 on an anti-slip ratchet 26, enabling the placing screen 7 to rotate only in one direction, starting a hot air blower 4 to blow hot air into a drying box 1, enabling the hot air to drive the heat to the surface of the noodle clusters, starting a heating pipe 6 to heat the noodle clusters on the placing screen 7, enabling the heat to permeate inwards from the outer side of the noodle clusters, and drying the noodles; the electro-hydraulic push rod 17 is controlled to extend until the diversion module 16 is horizontally arranged with the air heater 4, at the moment, the inlet of the diversion module 16 is completely communicated with the air outlet of the air heater 4, hot air blown by the air heater 4 enters the diversion module 16, the diversion module 16 drives the diversion head 18 to be positioned above the center position of the noodle mass, the latch plates 13 on the upper side and the lower side are completely attached, the hot air flows into the diversion module 16 and blows out to the center position of the noodle mass along the diversion head 18, the center position of the noodle mass is dried, the hot air drives the pneumatic fan blades 15 to rotate in the flowing process, the latch plates 13 positioned above are rotated under the transmission of the speed reducing module 14, the latch plates 13 positioned below are synchronously rotated under the engagement of the latches, the driving wheel assemblies 9 positioned at the leftmost side are driven by the long connecting rod 11 to be synchronously rotated, and under the transmission of the driving belt 10, the driving wheel assemblies 9 drive the placing screen plate 7 to rotate through the short connecting rod 8, and the noodle mass is enabled to be dried to be more uniformly rotated along with the placing screen plate 7 in the drying process; under the elasticity of a reset tension spring 22, the magnetic plate assembly 21 is driven to slide with the unilateral tooth socket frame 20, the unilateral tooth socket frame 20 drives the downside porous disc 19 to rotate through the engagement of tooth sockets of the downside porous disc 19 until ventilation grooves 19a on the inner sides of the upside and downside porous discs 19 are completely overlapped, hot air passes through the porous disc 19 through the ventilation grooves 19a and is blown out from the split heads 18, the air volume detection module 25 detects the air volume blown in each split head 18, when the air volumes are different, the electromagnet 23 corresponding to the split heads 18 with larger air volume is started and generates magnetic force to attract the magnetic plate assembly 21 to drive the magnetic plate assembly 21, the magnetic plate assembly 21 drives the unilateral tooth socket frame 20 to move through the engagement of the unilateral tooth socket frame 20 and the downside porous disc 19, the porous plates 19 on the upper side and the lower side are made to rotate relatively, the ventilation grooves 19a in the porous plates 19 can rotate relatively along with the porous plates 19, the ventilation grooves 19a are shielded by a certain amount by the adjacent porous plates 19, the overlapping area of the ventilation grooves 19a on the upper side and the lower side can be reduced, and accordingly the blowing air quantity in the split heads 18 is reduced, the voltage of the electromagnets 23 is changed through the voltage transformation module 24, the magnetic force of the electromagnets 23 is changed, the pulling force of the reset tension springs 22 received by the magnetic plate assemblies 23 and the magnetic force of the electromagnets 23 on the electromagnets are balanced mutually, the magnetic plate assemblies 23 are made to move to different positions, the porous plates 19 are driven to rotate at different angles, the blowing air quantity is controlled in real time, and the same blowing air quantity of each split head 18 and the drying progress of noodle clusters at different positions are guaranteed to be the same.

Example 2

Referring to fig. 1-3, fig. 5 and fig. 6, the invention provides a flour finished product quick drying device and a working method thereof, which comprises a drying box 1, an air heater 4 and a heating pipe 6, wherein the inner side of the rear end of the drying box 1 is provided with a box door 2, the left end of the drying box 1 is fixedly connected with a side supporting plate 3, the air heater 4 is supported by the side supporting plate 3, the top end of the side supporting plate 3 is fixedly connected with the air heater 4, the output end of the air heater 4 is communicated with the inside of the drying box 1, the inner side of the right end of the drying box 1 is communicated with an air outlet pipe 28, the air in the drying box 1 is discharged through the air outlet pipe 28, the inner side of the drying box 1 is fixedly connected with a drying plate 5, the inner side of the drying plate 5 is provided with the heating pipe 6, the drying plate 5 is heated through the heating pipe 6, the inner side of the drying plate 5 is rotationally connected with a short connecting rod 8, the top end of the short connecting rod 8 is fixedly connected with a placing screen 7, the noodle mass is placed by the placing screen 7, and the inner side of the drying box 1 is connected with a split-type sliding module 16.

Specifically, an inlet is formed in the inner side of the left end of the flow distribution module 16, the shape of the output end of the air heater 4 is matched with the shape of the inlet, an electro-hydraulic push rod 17 is fixedly connected to the top end of the flow distribution module 16, the electro-hydraulic push rod 17 is fixedly connected to the inner side of the drying box 1, the flow distribution module 16 is driven to lift through the electro-hydraulic push rod 17, and a flow distribution head 18 is communicated with the inner side of the bottom end of the flow distribution module 16.

Specifically, the left wall fixedly connected with of stoving case 1 prevents partially module 12, prevent partially the inboard rotation of module 12 and be connected with long connecting rod 11, long connecting rod 11 runs through the inboard of stoving board 5, the top fixedly connected with latch dish 13 of long connecting rod 11, the equal fixedly connected with drive wheel subassembly 9 of bottom of short connecting rod 8 and long connecting rod 11, the outside of drive wheel subassembly 9 is provided with driving belt 10, makes drive wheel subassembly 9 rotate simultaneously through driving belt 10.

Specifically, the inside of the left end of the diverting module 16 is fixedly connected with a speed reducing module 14, the tail end of a left main shaft of the speed reducing module 14 is fixedly connected with a pneumatic fan blade 15, after the pneumatic fan blade 15 is driven to rotate by hot air, the latch disc 13 at the bottom end of the speed reducing module 14 is rotated, and the tail end of a lower main shaft of the speed reducing module 14 is fixedly connected with the latch disc 13.

Specifically, the outside fixedly connected with antiskid ratchet 26 of short connecting rod 8, antiskid ratchet 26 rotates the inboard of connecting in stoving board 5, the inboard of stoving board 5 is provided with pawl assembly 27, pawl assembly 27 corresponds each other with antiskid ratchet 26, through the spacing of pawl assembly 27 to antiskid ratchet 26, avoids short connecting rod 8 free rotation.

By adopting the technical scheme: according to the invention, the heating pipe 6 and the air heater 4 are used for heating and drying the noodle clusters in double effects, and the flow dividing module 16 can be used for dividing the hot air blown by the air heater 4, so that the hot air is blown to the central position of each noodle cluster, the heat flow of the central position of the noodle cluster is increased, the heat is used for permeation and drying from outside to inside, the noodle clusters are dried more quickly, the noodle clusters are driven to rotate, and an additional power mechanism is not needed, so that the uniformity of the noodle clusters during drying is ensured.

Example 3

Referring to fig. 1, 4 and 7, the invention provides a flour finished product quick drying device and a working method thereof, wherein the flour finished product quick drying device comprises a drying box 1, a hot air blower 4 and a heating pipe 6, a drying plate 5 is fixedly connected to the inner side of the drying box 1, and a diversion module 16 is slidingly connected to the inner side of the drying box 1.

Specifically, an inlet is formed in the inner side of the left end of the flow dividing module 16, the shape of the output end of the air heater 4 is matched with that of the inlet, the flow dividing module 16 is driven to lift by the electro-hydraulic push rod 17, and a flow dividing head 18 is communicated with the inner side of the bottom end of the flow dividing module 16.

Specifically, the inside of reposition of redundant personnel head 18 is provided with porous dish 19 and air volume detection module 25, is located the top porous dish 19 fixed connection is in the inboard of reposition of redundant personnel head 18, is located the below porous dish 19 rotates the inboard of connecting in reposition of redundant personnel head 18, ventilation groove 19a has been seted up to the inboard of porous dish 19, and hot-blast can pass porous dish 19 through ventilation groove 19a, the inboard sliding connection of reposition of redundant personnel module 16 has unilateral tooth groove frame 20, is located the below porous dish 19's of below outer terminal surface has seted up the tooth groove, unilateral tooth groove frame 20 passes through the tooth groove and meshes with the porous dish 19 that is located the below, drives the porous dish 19 rotation that is located the below through the slip of unilateral tooth groove frame 20.

Specifically, the inboard fixedly connected with electro-magnet 23 and the vary voltage module 24 of reposition of redundant personnel module 16, electro-magnet 23 passes through the wire and is connected with vary voltage module 24, vary voltage module 24 to electro-magnet 23's magnetic force changes, the inboard sliding connection of reposition of redundant personnel module 16 has magnetic plate subassembly 21, the inboard fixedly connected with extension spring 22 that resets of reposition of redundant personnel module 16, extension spring 22 that resets and magnetic plate subassembly 21 fixed connection, make things convenient for the reset of magnetic plate subassembly 21 through extension spring 22 that resets.

By adopting the technical scheme: in the invention, the air flow blown by the flow dividing heads 18 is detected by the air flow detecting module 25, the voltage of the electromagnet 23 is changed by the voltage transformation module 24, so that the magnetic force of the electromagnet 23 is changed, the magnetic plate assembly 23 drives the porous disc 19 to rotate at different angles, the overlapping area of the ventilation grooves 19a on the upper side and the lower side is changed, the air flow blown by the flow dividing heads 18 is adjusted, the same air flow of the hot air blown by each flow dividing head 18 is ensured, the contact of different amounts of hot air with noodle clusters at different positions is avoided, and the drying progress of the noodle clusters at different positions is the same.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and it should be understood that the technical scheme and the inventive concept according to the present invention are equivalent or changed within the scope of the present invention disclosed by the present invention by those skilled in the art.

Claims (2)

1. The utility model provides a flour finished product quick drying equipment, includes stoving case, air heater and heating pipe, its characterized in that: the inside chamber door that is provided with of rear end of stoving case, the left end fixedly connected with side fagging of stoving case, the top fixedly connected with air heater of side fagging, the output of air heater communicates with the inside of stoving case, the inside intercommunication of right-hand member of stoving case has the tuber pipe, the inside fixedly connected with stoving board of stoving case, the inboard of stoving board is provided with the heating pipe, the inboard of stoving board rotates and is connected with the short connecting rod, the fixedly connected with on the top of short connecting rod places the otter board, the inboard sliding connection of stoving case has a reposition of redundant personnel module, the left end inboard of reposition of redundant personnel module has seted up the entry, the output shape and the entry shape coincide, the top fixedly connected with electrohydraulic push rod of reposition of redundant personnel module, electrohydraulic push rod fixedly connected with the inboard of stoving case, the inside intercommunication of the bottom of reposition of redundant module has the shunt head, the left wall fixedly connected with anti-deflection module of stoving case, the inboard of anti-deflection module rotates and is connected with long connecting rod, the inboard of long connecting rod, the inside of ratchet card connecting rod is connected with the side of end of a side of a ratchet wheel, the end of a ratchet wheel is fixedly connected with the end of a ratchet wheel assembly, the ratchet is fixedly connected with the end of a side of a ratchet assembly, the end of a ratchet assembly is fixedly connected with the end of a ratchet assembly, the inside of reposition of redundant personnel head is provided with porous dish and amount of wind detection module, is located the top porous dish fixed connection is in the inboard of reposition of redundant personnel head, is located the below porous dish rotates to be connected in the inboard of reposition of redundant personnel head, ventilation groove has been seted up to the inboard of porous dish, the inboard sliding connection of reposition of redundant personnel module has unilateral tooth's socket frame, is located the below the tooth's socket has been seted up to the outer terminal surface of porous dish, unilateral tooth's socket frame passes through the tooth's socket and is located the porous dish meshing of below, the inboard fixedly connected with electro-magnet and the transformation module of reposition of redundant personnel module, the electro-magnet passes through the wire and is connected with the transformation module, the inboard sliding connection of reposition of redundant personnel module has the magnetic sheet subassembly, the inboard fixedly connected with extension spring that resets and magnetic sheet subassembly fixed connection.

2. The method for operating a flour product quick-drying apparatus according to claim 1, characterized in that: the method comprises the following steps:

step 1, opening a box door, placing individual noodle clusters on a placing screen plate, closing the box door, starting a hot air blower to blow hot air into a drying box, starting a heating pipe, and performing permeation drying on the noodle clusters on a drying plate by the heat;

step 2, controlling the electro-hydraulic push rod to extend, enabling hot air blown by the hot air blower to flow into the flow distribution module, and blowing out the hot air along the flow distribution head to the center position of the noodle mass;

and step 3, starting the electromagnet, changing the voltage of the electromagnet by the voltage transformation module, generating magnetic force change, attracting the magnetic plate assembly, driving the unilateral tooth socket frame to rotate the porous disc positioned below, and adjusting the air quantity of hot air blown by the flow dividing head.