CN111829320B

CN111829320B - Drying treatment method for rice flour after molding

Info

Publication number: CN111829320B
Application number: CN202010721561.6A
Authority: CN
Inventors: 张伟健
Original assignee: Huaihua Tiantian Food Technology Co ltd
Current assignee: Huaihua Tiantian Food Technology Co.,Ltd.
Priority date: 2020-07-24
Filing date: 2020-07-24
Publication date: 2022-01-07
Anticipated expiration: 2040-07-24
Also published as: CN111829320A

Abstract

The invention relates to a drying treatment method after rice flour molding, which mainly comprises the following steps of multiple working procedures such as feeding operation, drying treatment, material taking operation, conveying operation, collecting operation and the like, wherein rice flour drying equipment used comprises a bottom plate, a feeding device, a drying device, a material taking device and a discharging device; b current ground rice drying equipment can only dry the ground rice, can not cool down the ground rice after the ground rice is dry to the drying of ground rice is inhomogeneous, needs many times drying process, has reduced the drying efficiency of ground rice, can improve the drying efficiency and the effect of ground rice.

Description

Drying treatment method for rice flour after molding

Technical Field

The invention relates to the technical field of rice flour production and treatment, in particular to a drying treatment method after rice flour molding.

Background

The rice flour is a strip-shaped or filiform rice product prepared by taking rice as a raw material and performing the processes of soaking, cooking, layering and the like, but not a powdery material which is understood semantically and is prepared by grinding the rice as the raw material, has flexible texture and high elasticity, is not easy to break when being boiled in water, is not easy to break when being dry-fried, is matched with various vegetable codes or soup bases to be boiled or dry-fried in soup, is smooth and tasty, is popular with consumers, has various varieties and can be divided into rice noodles, square rice noodles, corrugated rice noodles, silver wire rice noodles, wet rice noodles, dry rice noodles and the like, and the rice noodles have more water content after being formed and need to be dried so as to ensure the production quality of the rice noodles.

However, the following problems exist in the existing drying of the formed rice noodles, namely a traditional rice noodle drying mode is suspended natural air drying, and the problems of low drying speed and low efficiency of the rice noodles are caused by the interference of weather factors, so that the yield of finished rice noodles is seriously influenced, the product is easily polluted, and the production quality of the rice noodles is influenced; b current ground rice drying equipment can only dry the ground rice, can not cool down the ground rice after the ground rice is dry, has reduced the drying quality of ground rice to the drying of ground rice is inhomogeneous, needs many times drying process, has reduced the drying efficiency of ground rice, can improve the drying efficiency and the effect of ground rice, has improved the production quality of ground rice.

Disclosure of Invention

In order to solve the problems, the invention provides a drying treatment method after rice flour molding, which can solve the problems existing in the drying process after the rice flour molding.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a drying treatment method after rice flour molding mainly comprises the following steps:

step one, feeding, namely conveying the molded rice flour to the lower end of a drying device through a feeding device to obtain the rice flour after feeding;

step two, drying, namely drying the rice flour which is subjected to loading and obtained in the step one through a drying device to obtain dried rice flour;

taking materials, namely conveying the dried rice noodles obtained in the step two to a discharging device through a material taking device to obtain the rice noodles with the taken materials;

conveying operation, namely conveying the rice flour obtained in the step three after the material taking is finished through a discharging device to obtain finished rice flour;

and step five, collecting, namely collecting the finished rice flour obtained in the step four to obtain the collected rice flour.

The rice flour drying equipment used in the steps comprises a bottom plate, a feeding device, a drying device, a material taking device and a discharging device, wherein the feeding device is installed on the bottom plate, the drying device is installed at the upper end of the feeding device, the material taking device is installed at the middle end of the feeding device, and the discharging device is installed at the right end of the feeding device.

The feeding device comprises a supporting plate, an L-shaped plate, a first motor, a first gear, a rotating round rod, a second gear, a synchronous belt, a feeding round rod and a connecting round rod, wherein the front end and the rear end of the bottom plate are symmetrically provided with the supporting plate, the inner wall of the supporting plate is provided with a feeding groove, the inner side of the feeding groove on the inner wall of the supporting plate is uniformly provided with the second gear through a pin shaft, the outer wall of the supporting plate at the rear end of the bottom plate is provided with the L-shaped plate, the inner wall of the L-shaped plate is provided with the first motor, the output end of the first motor is provided with the first gear, the first gear is connected with the second gear at the right end of the lower side of the feeding groove by penetrating the supporting plate at the rear end of the bottom plate through the rotating round rod, the second gears at the middle end of the upper side of the feeding groove are connected through the connecting round rod, the second gears are connected through the synchronous belt, and the synchronous belt and the second gear are meshed with each other gears, evenly install the material loading pole between the hold-in range, and the material loading pole passes through sliding fit's mode and installs in last silo, can be stable carry the drying device with rice flour in, carry out stable drying operation to rice flour.

The material taking device comprises a material taking frame, a second motor, a material taking threaded rod, a sliding plate, a power round rod, a clamping block, a long strip plate, a bidirectional air cylinder, a clamping plate, a buffering spring rod, a material taking plate and a rubber plate, wherein an L-shaped groove is formed in the lower end of the middle of the supporting plate, the material taking frame is installed on the outer wall of the supporting plate positioned at the front end of the bottom plate, sliding grooves are symmetrically formed in the inner walls of the upper end and the lower end of the material taking frame, the sliding plate is installed in the sliding grooves in a sliding fit mode, a material taking threaded groove is formed in the lower end of the sliding plate, the second motor is installed on the outer wall of the lower side of the left end of the material taking frame, the material taking threaded rod penetrates through the material taking frame and is installed in the material taking threaded groove in a threaded engagement mode, an inclined groove is formed in the middle of the sliding plate, the clamping block is installed in the L-shaped groove in the front end of the bottom plate, the power round rod is installed on the outer wall of the front end of the clamping block in the L-shaped groove of the supporting plate positioned at the front end of the bottom plate, and the power round bar is installed in L form groove and oblique form groove cross opening through sliding fit's mode, be connected through rectangular plate between the chucking piece, rectangular groove has been seted up in the rectangular plate, install two-way cylinder on the inner wall of rectangular groove middle-end, the grip block is installed to two-way cylinder output, and the grip block passes through sliding fit's mode and installs in rectangular groove, evenly install the buffering spring beam on the grip block, install on the buffering spring beam and get the flitch, it installs the rubber slab on the flitch to get, through the dual buffering of buffering spring beam and rubber slab, rice flour has been guaranteed can not break when the centre gripping, the drying quality of rice flour has been improved.

The discharging device comprises a third gear, a fourth gear, an internal toothed belt, round conveying rollers, a discharging belt, round transmission rods, a power ring, a tightly-abutting rod, a straight plate, a driven round rod and fan blades, wherein the round conveying rollers are symmetrically arranged between the lower inner walls of the supporting plates at the front ends of the bottom plates through bearings, the round conveying rollers are connected through the discharging belt, the round conveying roller at the left end of the lower inner wall of the supporting plate at the front end of the bottom plate penetrates through the supporting plate at the rear end of the bottom plate and is connected with the third gear, the round transmission rod is arranged on the inner wall of the upper side of the supporting plate at the front end of the bottom plate through the bearings, the rear end of the round transmission rod penetrates through the supporting plate and is connected with the fourth gear, the first gear, the third gear and the fourth gear are connected through the internal toothed belt, the straight plate is arranged between the inner walls of the upper ends of the supporting plates, the driven round rods are uniformly arranged on the straight plate through the bearings, the upper ends of the driven round rods are provided with rotating grooves, the flabellum is installed to driven round bar lower extreme, evenly install the power ring on the transmission round bar, evenly install along its circumference direction on the power ring outer wall and support tight round bar, and support tight round bar and install in the rotary tank through sliding fit's mode, through the transmission round bar, the power ring, support tight round bar, straight board, the operation of mutually supporting between driven round bar and the flabellum, make the flabellum can carry out the heat dissipation operation to the rice flour of dry completion, the drying quality and the efficiency of rice flour have been improved.

The drying device comprises square plates, a third motor, a transmission threaded rod, clamping plates, inclined plates and electric heating tubes, wherein the upper side of the middle part of the supporting plate is provided with a clamping groove, the clamping plates are arranged in the clamping groove in a sliding fit mode, the clamping plates are connected through the inclined plates, the inclined plates are provided with flat grooves, the electric heating tubes are uniformly arranged between the inner walls of the flat grooves, the clamping plates in the clamping groove of the supporting plate at the front end of the bottom plate are provided with transmission threaded grooves, the square plates are symmetrically arranged on the upper side and the lower side of the clamping groove on the outer wall of the supporting plate at the front end of the bottom plate, the third motor is arranged on the square plate at the lower side of the clamping groove on the outer wall of the supporting plate at the front end of the bottom plate, the output end of the third motor penetrates through the square plates and is provided with the transmission threaded rod, the transmission threaded rod is arranged in the transmission threaded grooves in a threaded engagement mode, the electric heating tubes which can dry the rice flour more uniformly, improves the drying quality and efficiency of the rice flour.

According to a preferable technical scheme of the invention, the upper end and the lower end of the whole feeding groove are straight grooves, the length of the straight groove at the lower end is longer than that of the straight groove at the upper end, and the straight grooves at the upper end and the lower end are connected into an annular feeding groove through inclined grooves, so that the feeding round rod can more stably convey rice flour.

As a preferred technical scheme of the present invention, the rotating groove is an arc-shaped ring groove intersecting with each other along the circumferential direction of the outer wall of the driven round rod, so that the abutting round rod can stably drive the driven round rod to perform a semi-rotation reciprocating motion.

As a preferred technical scheme of the invention, the lower end of the bottom plate is uniformly provided with the supporting rods, so that a stable working environment is provided for drying the rice noodles.

As a preferred technical scheme of the invention, the middle part of the bottom plate is provided with a circular groove, and the lower end of the circular groove is provided with a discharge pipe which can discharge the moisture on the rice noodles in time.

The invention has the beneficial effects that:

1. the invention can solve the following problems existing in the drying process after the existing rice flour is molded, a, the traditional rice flour drying mode is suspension natural air drying, and the problems of slower drying speed and low efficiency of the rice flour due to the interference of weather factors seriously affect the yield of finished rice flour products, and easily cause the pollution of the products and the production quality of the rice flour; b current ground rice drying equipment can only dry the ground rice, can not cool down the ground rice after the ground rice is dry, has reduced the drying quality of ground rice to the drying of ground rice is inhomogeneous, needs many times drying process, has reduced the drying efficiency of ground rice, can improve the drying efficiency and the effect of ground rice, has improved the production quality of ground rice.

2. According to the feeding device, the first gear is driven to rotate by the first motor, the first gear drives rice flour on the feeding round rod to move by the mutual matching of the rotating round rod, the second gear and the synchronous belt, and the rice flour can be stably conveyed into the drying device to be stably dried.

3. According to the material taking device, rice flour can be stably conveyed to the material taking device through the mutual matching operation among the second motor, the material taking threaded rod, the sliding plate, the power round rod, the clamping block and the strip plate, the rubber plate can stably clamp the rice flour through the mutual matching operation among the bidirectional cylinder, the clamping plate, the buffering spring rod, the material taking plate and the rubber plate, the rice flour is guaranteed not to be broken during clamping through double buffering of the buffering spring rod and the rubber plate, and the drying quality of the rice flour is improved.

4. According to the discharging device designed by the invention, the power of the motor I can be reasonably utilized through the mutual matching of the gear I, the gear III, the gear IV and the internal tooth belt, the dried rice noodles can be conveyed to a proper collecting position through the conveying round roller and the discharging belt, and the fan blades can perform heat dissipation operation on the dried rice noodles through the mutual matching operation among the transmission round rod, the power round ring, the abutting round rod, the straight plate, the driven round rod and the fan blades, so that the drying quality and the drying efficiency of the rice noodles are improved.

5. According to the drying device designed by the invention, through the mutual matching operation among the third motor, the transmission threaded rod, the clamping plate and the inclined plate, the inclined plate can drive the electric heating pipe to move to a proper drying position, and the rice flour can be dried more uniformly through the uniformly arranged electric heating pipe, so that the drying quality and efficiency of the rice flour are improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

fig. 2 is a schematic view of the rice flour drying apparatus of the present invention from a first perspective;

fig. 3 is a schematic structural view of a second perspective of the rice flour drying apparatus of the present invention;

FIG. 4 is a partial cross-sectional view of FIG. 2 of the present invention;

FIG. 5 is an enlarged view of the invention taken along line K of FIG. 4;

FIG. 6 is a schematic view of a partial structure of the loading device of the present invention;

FIG. 7 is a schematic view of a portion of a material extraction apparatus of the present invention;

fig. 8 is a partial structural schematic view of the discharging device of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 8, a drying treatment method after rice flour molding mainly comprises the following steps:

step one, feeding, namely conveying the molded rice flour to the lower end of a drying device 3 through a feeding device 2 to obtain the rice flour after feeding;

step two, drying, namely drying the rice flour which is subjected to loading and obtained in the step one through a drying device 3 to obtain dried rice flour;

taking materials, namely conveying the dried rice noodles obtained in the step two to a discharging device 5 through a material taking device 4 to obtain the rice noodles with the taken materials;

conveying operation, namely conveying the rice flour obtained in the step three after the material taking is finished through a discharging device 5 to obtain finished rice flour;

The rice flour drying equipment used in the above steps comprises a bottom plate 1, a feeding device 2, a drying device 3, a material taking device 4 and a discharging device 5, wherein the feeding device 2 is installed on the bottom plate 1, the drying device 3 is installed at the upper end of the feeding device 2, the material taking device 4 is installed at the middle end of the feeding device 2, and the discharging device 5 is installed at the right end of the feeding device 2.

The feeding device 2 comprises a supporting plate 21, an L-shaped plate 22, a first motor 23, a first gear 24, a rotating round rod 25, a second gear 26, a synchronous belt 27, a feeding round rod 28 and a connecting round rod 29, wherein the supporting plate 21 is symmetrically arranged at the front end and the rear end of the bottom plate 1, a feeding groove is formed in the inner wall of the supporting plate 21, the second gear 26 is uniformly arranged on the inner side of the feeding groove on the inner wall of the supporting plate 21 through a pin shaft, the L-shaped plate 22 is arranged on the outer wall of the supporting plate 21 at the rear end of the bottom plate 1, the first motor 23 is arranged on the inner wall of the L-shaped plate 22, the first gear 24 is arranged at the output end of the first motor 23, the first gear 24 penetrates through the supporting plate 21 at the rear end of the bottom plate 1 to be connected to the second gear 26 at the right end of the lower side of the feeding groove through the rotating round rod 25, the second gears 26 at the middle end of the upper side of the feeding groove are connected through the connecting round rod 29, and the second gears 26 are connected through the synchronous belt 27, and synchronous belt 27 and second gear 26 use with each other intermeshing, evenly install material loading round bar 28 between the synchronous belt 27, and material loading round bar 28 installs in last silo through sliding fit's mode.

The upper end and the lower end of the whole feeding groove are straight grooves, the length of the straight groove at the lower end is longer than that of the straight groove at the upper end, and the straight grooves at the upper end and the lower end are connected into an annular feeding groove through inclined grooves.

During specific work, the ground rice hangs at material loading pole 28 after cutting the shaping, and a motor 23 drives a gear 24 and rotates, and a gear 24 drives and rotates round bar 25, rotates round bar 25 and drives No. two gear 26 rotations, and No. two gear 26 carries out synchronous rotation through hold-in range 27's connection for hold-in range 27 can drive material loading round bar 28 and rotate, and material loading round bar 28 drives the ground rice motion.

The drying device 3 comprises a square plate 31, a third motor 32, a transmission threaded rod 33, a clamping plate 34, an inclined plate 35 and an electric heating pipe 36, backup pad 21 middle part upside seted up the draw-in groove, install cardboard 34 through sliding fit's mode in the draw-in groove, be connected through swash plate 35 between the cardboard 34, the plain groove has been seted up on the swash plate 35, evenly install electrothermal tube 36 between the plain groove inner wall, the transmission thread groove has been seted up on the cardboard 34 that is located the backup pad 21 draw-in groove of 1 front end of bottom plate, the upper and lower bilateral symmetry that lies in the draw-in groove on the backup pad 21 outer wall that is located the 1 front end of bottom plate installs square plate 31, lie in and install No. three motor 32 on the square plate 31 of draw-in groove downside on the backup pad 21 outer wall that is located the 1 front end of bottom plate, No. three motor 32 output passes square plate 31 and installs transmission threaded rod 33, and transmission threaded rod 33 passes through the mode of thread engagement and installs at the transmission thread inslot.

During specific work, when the feeding round rod 28 drives rice flour to move to the lower end of the electric heating tube 36, the third motor 32 drives the transmission threaded rod 33 to rotate, the transmission threaded rod 33 drives the clamping plate 34 to move in a thread meshed mode, the clamping plate 34 drives the inclined plate 35 to move, and the inclined plate 35 drives the electric heating tube 36 to move to a proper drying position, so that the electric heating tube 36 can dry the rice flour uniformly.

The material taking device 4 comprises a material taking frame 4a, a second motor 4b, a material taking threaded rod 4c, a sliding plate 4d, a power round rod 4e, a clamping block 4f, a strip plate 4g, a bidirectional air cylinder 4h, a clamping plate 4i, a buffering spring rod 4j, a material taking plate 4k and a rubber plate 4L, wherein the lower end of the middle part of the supporting plate 21 is provided with an L-shaped groove, the outer wall of the supporting plate 21 at the front end of the bottom plate 1 is provided with the material taking frame 4a, the inner walls of the upper end and the lower end of the material taking frame 4a are symmetrically provided with sliding grooves, the sliding plate 4d is arranged in the sliding grooves in a sliding fit mode, the lower end of the sliding plate 4d is provided with the material taking threaded groove, the outer wall of the lower side of the left end of the material taking frame 4a is provided with the second motor 4b, the output end of the second motor 4b penetrates through the material taking frame 4a to be provided with the material taking 4c, and the material taking threaded rod 4c is arranged in the material taking threaded groove in a thread meshing mode, an oblique groove is formed in the middle of the sliding plate 4d, a clamping block 4f is installed in the L-shaped groove in a sliding fit mode, a power round rod 4e is installed on the outer wall of the front end of the clamping block 4f in the L-shaped groove of the supporting plate 21 located at the front end of the bottom plate 1, the power round rod 4e is installed in the intersection of the L-shaped groove and the oblique groove in a sliding fit mode, the clamping blocks 4f are connected through a long strip plate 4g, a long strip groove is formed in the long strip plate 4g, a bidirectional cylinder 4h is installed on the inner wall of the middle end of the long strip groove, a clamping plate 4i is installed at the output end of the bidirectional cylinder 4h, the clamping plate 4i is installed in the long strip groove in a sliding fit mode, a buffering spring rod 4j is evenly installed on the clamping plate 4i, a material taking plate 4k is installed on the buffering spring rod 4j, and a rubber plate 4L is installed on the material taking plate 4 k.

When the rice noodle feeding device works specifically, when the feeding round rod 28 drives rice noodles to move to a gap between the rubber plates 4L, the first motor 23 stops rotating, the second motor 4b drives the material taking threaded rod 4c to rotate, the material taking threaded rod 4c drives the sliding plate 4d to move in a threaded meshing mode, the sliding plate 4d drives the power round rod 4e to move to a proper clamping position towards the upper end through extrusion of the L-shaped groove and the inclined groove, the second motor 4b stops rotating, the bidirectional air cylinder 4h drives the clamping plate 4i to move towards the inner end, the clamping plate 4i drives the material taking plate 4k to move towards the inner end through the buffer spring rod 4j, the material taking plate 4k drives the rubber plates 4L to move towards the inner end, so that the rubber plates 4L perform slight clamping operation on the rice noodles, the second motor 4b continues to drive the material taking threaded rod 4c to rotate, the material taking threaded rod 4c drives the sliding plate 4d to move, and the sliding plate 4d drives the power round rod 4e to move to a proper material placing position through extrusion of the L-shaped groove and the inclined groove And the bidirectional cylinder 4h drives the clamping plate 4i to move towards the outer end, so that the rubber plate 4l loosens the clamping of the rice flour and conveys the rice flour to the discharging belt 5 e.

The discharging device 5 comprises a third gear 5a, a fourth gear 5b, an internal tooth belt 5c, conveying circular rollers 5d, a discharging belt 5e, a transmission circular rod 5f, a power circular ring 5g, a support circular rod 5h, a straight plate 5i, a driven circular rod 5j and fan blades 5k, the conveying circular rollers 5d are bilaterally symmetrically arranged between the lower inner walls of the supporting plates 21 at the front ends of the bottom plates 1 through bearings, the conveying circular rollers 5d are connected with each other through the discharging belt 5e, the conveying circular roller 5d at the left end of the lower inner wall of the supporting plate 21 at the front end of the bottom plate 1 penetrates through the supporting plate 21 at the rear end of the bottom plate 1 to be connected with the third gear 5a, the transmission circular rod 5f is arranged on the upper inner wall of the supporting plate 21 at the front end of the bottom plate 1 through a bearing, the rear end of the transmission circular rod 5f penetrates through the supporting plate 21 to be connected with the fourth gear 5b, the first gear 24, the third gear 5a and the fourth gear 5b are connected with the internal tooth belt 5c, install straight board 5i between the inner wall of backup pad 21 upper end, evenly install driven round bar 5j through the bearing on straight board 5i, the swivelling chute has been seted up to driven round bar 5j upper end, flabellum 5k is installed to driven round bar 5j lower extreme, evenly install power ring 5g on the transmission round bar 5f, evenly install along its circumference direction on the 5g outer wall of power ring and support tight round bar 5h, and support tight round bar 5h and install in the swivelling chute through sliding fit's mode.

The rotating groove is an arc-shaped ring groove which is crossed along the circumferential direction of the outer wall of the driven round rod 5 j.

The middle part of the bottom plate 1 is provided with a circular groove, and the lower end of the circular groove is provided with a discharge pipe 12.

When the machine works, the first gear 24 rotates and simultaneously drives the third gear 5a and the fourth gear 5b to rotate through the internal tooth belt 5c, the fourth gear 5b drives the transmission round rod 5f to rotate, the transmission round rod 5f drives the power ring 5g to rotate, the power ring 5g drives the abutting round rod 5h to rotate, the abutting round rod 5h drives the driven round rod 5j to do reciprocating and semi-suspension rotation through the rotating groove on the driven round rod 5j, the driven round rod 5j drives the fan blade 5k to rotate, so that the fan blades 5k can perform heat dissipation operation on the dried rice flour conveyed onto the discharging belt 5e, simultaneously, No. three gear 5a drives and carries round roller 5d and rotate, carries round roller 5d to drive out material area 5e and carries the rice flour suitable collection position, and the operation is collected to the rice flour to the manual work, and so repetition can carry out drying operation to fashioned rice flour.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A drying treatment method after rice flour molding is characterized in that: the method mainly comprises the following steps:

step one, feeding, namely conveying the molded rice flour to the lower end of a drying device (3) through a feeding device (2) to obtain the rice flour after feeding;

step two, drying, namely drying the rice flour which is obtained in the step one and is subjected to feeding through a drying device (3) to obtain dried rice flour;

taking materials, namely conveying the dried rice noodles obtained in the step two to a discharging device (5) through a material taking device (4) to obtain the rice noodles with the taken materials;

conveying operation, namely conveying the rice flour obtained in the step three after the material taking is finished through a discharging device (5) to obtain finished rice flour;

step five, collecting, namely collecting the finished rice flour obtained in the step four to obtain the collected rice flour;

the rice noodle drying equipment used in the steps comprises a bottom plate (1), a feeding device (2), a drying device (3), a taking device (4) and a discharging device (5), wherein the feeding device (2) is installed on the bottom plate (1), the drying device (3) is installed at the upper end of the feeding device (2), the taking device (4) is installed at the middle end of the feeding device (2), and the discharging device (5) is installed at the right end of the feeding device (2);

the feeding device (2) comprises a supporting plate (21), an L-shaped plate (22), a first motor (23), a first gear (24), a rotating round rod (25), a second gear (26), a synchronous belt (27), a feeding round rod (28) and a connecting round rod (29), wherein the supporting plate (21) is symmetrically arranged at the front end and the rear end of the bottom plate (1), a feeding groove is formed in the inner wall of the supporting plate (21), the inner side of the feeding groove on the inner wall of the supporting plate (21) is uniformly provided with the second gear (26) through a pin shaft, the L-shaped plate (22) is arranged on the outer wall of the supporting plate (21) at the rear end of the bottom plate (1), the first motor (23) is arranged on the inner wall of the L-shaped plate (22), the first gear (24) is arranged at the output end of the first motor (23), the supporting plate (21) at the rear end of the bottom plate (1) penetrates through the rotating round rod (25) to be connected to the second gear (26) at the lower right end of the lower side of the feeding groove, the second gears (26) positioned at the middle ends of the upper sides of the feeding grooves are connected through connecting round rods (29), the second gears (26) are connected through synchronous belts (27), the synchronous belts (27) and the second gears (26) are meshed with each other for use, the feeding round rods (28) are uniformly arranged between the synchronous belts (27), and the feeding round rods (28) are arranged in the feeding grooves in a sliding fit mode;

the material taking device (4) comprises a material taking frame (4a), a second motor (4b), a material taking threaded rod (4c), a sliding plate (4d), a power round rod (4e), a clamping block (4f), a strip plate (4g), a bidirectional cylinder (4h), a clamping plate (4i), a buffer spring rod (4j), a material taking plate (4k) and a rubber plate (4L), wherein an L-shaped groove is formed in the lower end of the middle of a supporting plate (21), the material taking frame (4a) is installed on the outer wall of the supporting plate (21) positioned at the front end of a bottom plate (1), sliding grooves are symmetrically formed in the inner walls of the upper end and the lower end of the material taking frame (4a), the sliding plate (4d) is installed in the sliding grooves in a sliding fit mode, the material taking threaded groove is formed in the lower end of the sliding plate (4d), the second motor (4b) is installed on the lower side of the outer wall of the left end of the material taking frame (4a), and the output end of the second motor (4b) penetrates through the material taking frame (4a) to be provided with the material taking threaded rod (4c), the material taking threaded rod (4c) is arranged in a material taking threaded groove in a threaded meshing mode, an inclined groove is formed in the middle of the sliding plate (4d), a clamping block (4f) is arranged in the L-shaped groove in a sliding fit mode, a power round rod (4e) is arranged on the outer wall of the front end of the clamping block (4f) in the L-shaped groove of the supporting plate (21) at the front end of the bottom plate (1) in a sliding fit mode, the power round rod (4e) is arranged in a crossed opening of the L-shaped groove and the inclined groove in a sliding fit mode, the clamping blocks (4f) are connected through a long strip plate (4g), a long strip groove is formed in the long strip plate (4g), a bidirectional air cylinder (4h) is arranged on the inner wall of the middle end of the long strip groove, a clamping plate (4i) is arranged at the output end of the bidirectional air cylinder (4h), the clamping plate (4i) is arranged in the long strip groove in a sliding fit mode, and buffering spring rods (4j) are uniformly arranged on the clamping plate (4i), a material taking plate (4k) is arranged on the buffer spring rod (4j), and a rubber plate (4l) is arranged on the material taking plate (4 k);

the discharging device (5) comprises a third gear (5a), a fourth gear (5b), an internal toothed belt (5c), conveying round rollers (5d), a discharging belt (5e), a transmission round rod (5f), a power ring (5g), a support round rod (5h), straight plates (5i), driven round rods (5j) and fan blades (5k), the conveying round rollers (5d) are bilaterally symmetrically arranged between the lower inner walls of the supporting plates (21) at the front ends of the bottom plates (1) through bearings, the conveying round rollers (5d) are connected through the discharging belt (5e), the conveying round rollers (5d) at the left ends of the lower inner walls of the supporting plates (21) at the front ends of the bottom plates (1) penetrate through the supporting plates (21) at the rear ends of the bottom plates (1) to be connected with the third gear (5a), the transmission round rod (5f) is arranged on the upper inner walls of the supporting plates (21) at the front ends of the bottom plates (1) through bearings, the rear end of a transmission round rod (5f) penetrates through a supporting plate (21) and is connected with a fourth gear (5b), a first gear (24), a third gear (5a) and a fourth gear (5b) are connected through an internal toothed belt (5c), a straight plate (5i) is installed between inner walls of the upper end of the supporting plate (21), a driven round rod (5j) is evenly installed on the straight plate (5i) through a bearing, a rotary groove is formed in the upper end of the driven round rod (5j), fan blades (5k) are installed at the lower end of the driven round rod (5j), a power ring (5g) is evenly installed on the transmission round rod (5f), a tight round rod (5h) is evenly installed on the outer wall of the power ring (5g) along the circumferential direction of the outer wall, and the tight round rod (5h) is installed in the rotary groove in a sliding fit mode.

2. The method for drying rice noodles after molding as claimed in claim 1, wherein the method comprises the steps of: the drying device (3) comprises square plates (31), a third motor (32), a transmission threaded rod (33), clamping plates (34), inclined plates (35) and electric heating pipes (36), wherein a clamping groove is formed in the upper side of the middle of the support plate (21), the clamping plates (34) are installed in the clamping groove in a sliding fit mode, the clamping plates (34) are connected through the inclined plates (35), flat grooves are formed in the inclined plates (35), the electric heating pipes (36) are evenly installed between the inner walls of the flat grooves, transmission threaded grooves are formed in the clamping plates (34) in the clamping groove of the support plate (21) at the front end of the bottom plate (1), the square plates (31) are symmetrically installed on the upper side and the lower side of the clamping groove on the outer wall of the support plate (21) at the front end of the bottom plate (1), the third motor (32) is installed on the square plate (31) on the lower side of the clamping groove on the outer wall of the support plate (21) at the front end of the bottom plate (1), the output end of the third motor (32) penetrates through the square plate (31) to be provided with a transmission threaded rod (33), and the transmission threaded rod (33) is arranged in a transmission threaded groove in a threaded engagement mode.

3. The method for drying rice noodles after molding as claimed in claim 1, wherein the method comprises the steps of: the upper end and the lower end of the whole feeding groove are straight grooves, the length of the straight groove at the lower end is longer than that of the straight groove at the upper end, and the straight grooves at the upper end and the lower end are connected into an annular feeding groove through inclined grooves.

4. The method for drying rice noodles after molding as claimed in claim 1, wherein the method comprises the steps of: the rotating groove is an arc-shaped ring groove which is crossed along the circumferential direction of the outer wall of the driven round rod (5 j).

5. The method for drying rice noodles after molding as claimed in claim 1, wherein the method comprises the steps of: the lower end of the bottom plate (1) is uniformly provided with a support rod (11).

6. The method for drying rice noodles after molding as claimed in claim 1, wherein the method comprises the steps of: the middle part of the bottom plate (1) is provided with a circular groove, and the lower end of the circular groove is provided with a discharge pipe (12).