阅读说明：本技术 一种米粉制作加工工艺 (Rice flour manufacturing and processing technology ) 是由 张纪彬 于 2020-07-20 设计创作，主要内容包括：本发明涉及一种米粉制作加工工艺,主要包括以下步骤,原料准备、除杂清洗、浸泡磨浆、脱水处理、挤丝冷却、切断成型、蒸煮作业、冷却烘干以及密封包装等多种工序,使用到的米粉冷却烘干设备包括底板、冷却装置、散热装置和烘干装置,本发明可以解决现有米粉在冷却烘干输送时存在的以下难题,a,传统的米粉在冷却烘干输送时,通常采用水冷的方式进行冷却作业,由于米粉成型后直接进入水池中冷却,急冷导致米粉收缩不均匀,弹性不如自然风冷好,采用水冷也不利于自动化流水作业,容易导致产品受污染；b现有的米粉冷却输送设备在对米粉进行冷却输送时,不能对冷却后的米粉进行烘干作业,降低了米粉冷却的效率,提高了米粉的生产质量。(The invention relates to a rice flour preparation processing technology, mainly include the following steps, raw materials prepare, edulcorate wash, soak jordaning, many processes such as dehydration treatment, cooling of the extruded filament, cut off the shaping, operation of cooking, cooling and drying and seal packing, the rice flour cooling drying apparatus used includes bottom plate, cooling device, heat dissipating double-fuselage and drying device, the invention can solve the following difficult problem that the existing rice flour exists while cooling and drying and conveying, a, traditional rice flour while cooling and drying and conveying, usually adopt the water-cooled way to cool off the operation, because the rice flour enters the pond to cool directly after shaping, the chilling leads to the rice flour to shrink unevenly, the elasticity is not as good as the natural wind cooling, adopt the water-cooling to be unfavorable for the automatic line production too, lead to the products to be polluted easily; b when current ground rice cooling conveying equipment cools off the ground rice and carries, can not carry out the stoving operation to the ground rice after the cooling, reduced the refrigerated efficiency of ground rice, improved the production quality of ground rice.)

1. A rice flour preparation processing technology is characterized in that: the method mainly comprises the following steps:

step one, preparing raw materials, namely preparing the raw materials for making the rice flour, and uniformly stirring the raw materials to obtain the rice flour raw materials which are stirred;

step two, impurity removal and cleaning, namely performing impurity removal and cleaning operation on the stirred rice flour raw material obtained in the step one to obtain the rice flour raw material subjected to impurity removal and cleaning;

step three, soaking and grinding, namely soaking the rice flour raw material which is obtained in the step two and is cleaned after impurity removal, and grinding the soaked rice flour raw material to obtain the rice flour raw material which is ground;

step four, performing dehydration treatment, namely performing dehydration operation on the ground rice flour raw material obtained in the step three to obtain a dehydrated rice flour raw material;

step five, extruding and cooling, namely extruding the dehydrated rice flour raw material obtained in the step four, and cooling the extruded rice flour raw material to obtain a cooled rice flour raw material;

cutting and forming, namely cutting and forming the cooled rice flour raw material obtained in the step five to obtain a cut and formed rice flour raw material;

step seven, cooking operation, namely performing cooking operation on the cut and formed rice flour raw material obtained in the step six to obtain a cooked rice flour raw material;

step eight, cooling and drying, namely placing the cooked rice flour raw material obtained in the step seven into rice flour cooling and drying equipment to carry out cooling and drying operation on the rice flour to obtain formed rice flour;

step nine, sealing and packaging, namely performing sealing and packaging operation on the molded rice flour obtained in the step eight to obtain finished rice flour;

the rice noodle cooling and drying equipment used in the steps comprises a bottom plate (1), a cooling device (2), a heat dissipation device (3) and a drying device (4), wherein the cooling device (2) is installed on the bottom plate (1), and the heat dissipation device (3) and the drying device (4) are installed on the cooling device (2);

the cooling device (2) comprises a supporting plate (2a), a first motor (2b), a hollow round rod (2c), a rotary round rod (2d), a conveying belt (2e), a rotary round plate (2f), balls (2g), a connecting plate (2h), a positioning round rod (2i), a driven round rod (2j), a heat dissipation plate (2k), a first gear (2l) and a second gear (2m), wherein the supporting plate (2a) is symmetrically arranged at the left end and the right end of the bottom plate (1), the positioning round rod (2i) is uniformly arranged on the inner wall at the lower part of the supporting plate (2a) through a bearing, the connecting plate (2h) is arranged on the positioning round rod (2i) at the rear end of the lower part of the supporting plate (2a) through a bearing, the positioning round rod (2i) is uniformly arranged on the inner wall of the connecting plate (2h), the rotary round rod (2f) is arranged, the outer wall of the rotary circular plate (2f) is provided with a ring groove along the circumferential direction, the rotary circular rod (2d) is internally provided with a circular groove, the inner walls of the circular grooves at the left end and the right end of the rotary circular rod (2d) are provided with circular grooves, balls (2g) are uniformly arranged in the ring groove and the circular grooves along the circumferential direction, the outer wall of the supporting plate (2a) at the left end of the bottom plate (1) is provided with a motor (2b), the output end of the motor (2b) is provided with a hollow circular rod (2c), the hollow circular rod (2c) is connected to the outer wall of the rotary circular rod (2d) at the middle part of the lower end of the supporting plate (2a), the rotary circular rods (2d) are connected through a conveying belt (2e), the conveying belt (2e) is uniformly provided with air passing holes along the circumferential direction, the outer walls at the left end and the right end of the conveying belt (2e) are provided with power gear grooves along the circumferential direction, the, the outer wall of the rotary round rod (2d) is evenly provided with air outlet holes along the circumferential direction, the outer walls of the left end and the right end of the rotary round rod (2d) are provided with rotary gear grooves along the circumferential direction, the rotary gear groove and the driven gear groove are mutually matched for use, the inner walls of the left end and the right end of the rotary round rod (2d) are provided with the rotary gear groove along the circumferential direction, a first gear (2l) is uniformly arranged on the rotary round plate (2f) along the circumferential direction through a pin shaft, a second gear (2m) which is meshed with the first gear (2l) is arranged at the circle center of the rotary round plate (2f) through a pin shaft, the first gear (2l) and the rotating gear groove are meshed with each other, the second gear (2m) is connected through a driven round rod (2j), the driven round rod (2j) is uniformly provided with a heat dissipation plate (2k) along the circumferential direction of the driven round rod, and the outer wall of a support plate (2a) positioned at the left end of the bottom plate (1) is provided with an adjusting mechanism (21);

adjustment mechanism (21) including adjusting frame (211), adjust round bar (212), No. two motor (213), adjusting threaded rod (214) and sliding plate (215), the arc wall has been seted up on backup pad (2a) that is located bottom plate (1) left end, install on backup pad (2a) outer wall that is located bottom plate (1) left end and adjust frame (211), the spout has been seted up on the both ends inner wall about adjusting frame (211), install sliding plate (215) through sliding fit's mode in the spout, inclined groove has been seted up at sliding plate (215) middle part, adjusting threaded groove has been seted up to sliding plate (215) lower extreme, install No. two motor (213) on adjusting frame (211) front end inner wall, adjusting threaded rod (214) are installed to No. two motor (213) output, and adjusting threaded rod (214) install in adjusting threaded groove through thread engagement's mode, be located and install on connecting plate (2h) outer wall on backup pad (2a) left end location round bar (2i) and adjust round bar (212) The adjusting round rod (212) is arranged at the intersection of the inclined groove and the arc-shaped groove in a sliding fit manner;

heat abstractor (3) including No. three gear (31), rotate round bar (32), No. four gear (33), No. five gear (34) and flabellum (35), backup pad (2a) lower part about both sides install through the bearing and rotate round bar (32), be located backup pad (2a) downside rotation round bar (32) inner and install No. three gear (31), and intermeshing uses between No. three gear (31) and the power gear groove, be located backup pad (2a) downside rotation round bar (32) outer end and install No. four gear (33), be located backup pad (2a) upside rotation round bar (32) outer end and install No. five gear (34), and intermeshing uses between No. four gear (33) and No. five gear (34), be located backup pad (2a) upside rotation round bar (32) inner and install flabellum (35).

2. The rice noodle manufacturing and processing technology according to claim 1, characterized in that: the drying device (4) comprises a drying frame (41), a third motor (42), a power threaded rod (43), a power plate (44), a power round rod (45), a tight-supporting round rod (46), a straight plate (47) and an electric heating tube (48), wherein an arc-shaped groove is formed in a supporting plate (2a) at the right end of the bottom plate (1), the drying frame (41) is installed on the outer wall of the supporting plate (2a) at the right end of the bottom plate (1), clamping grooves are formed in the inner walls of the upper end and the lower end of the drying frame (41), the power plate (44) is installed in the clamping grooves in a sliding fit mode, an inclined groove is formed in the middle end of the power plate (44), a power threaded groove is formed in the lower end of the power plate (44), the third motor (42) is installed on the outer wall of the lower side of the front end of the drying frame (41), the power threaded rod (43) is installed at the output end of, tight round bar (46) of supporting is installed through the bearing between backup pad (2a) upper portion inner wall, supports to install on tight round bar (46) straight board (47), and the straight flute has been seted up to straight board (47) upper and lower end, evenly installs between the straight flute inner wall electrothermal tube (48), installs power round bar (45) on straight board (47) upside right-hand member outer wall, and power round bar (45) are installed in arcuation groove and oblique form groove cross department through sliding fit's mode.

3. The rice noodle manufacturing and processing technology according to claim 1, characterized in that: backup pad (2a) lower part rear side install square plate (22), seted up the square groove on square plate (22), install on the inner wall of square groove upper end and support tight spring beam (23), support tight spring beam (23) lower extreme and install flat board (24), and flat board (24) install in the square groove through sliding fit's mode, flat board (24) inner is installed No. six gear (25) through the round pin axle, and intermeshing uses between No. six gear (25) and the power gear groove.

4. The rice noodle manufacturing and processing technology according to claim 1, characterized in that: the middle end of the bottom plate (1) is provided with a water outlet, and the lower end of the water outlet is provided with a water outlet pipe (11).

5. The rice noodle manufacturing and processing technology according to claim 1, characterized in that: the lower end of the bottom plate (1) is uniformly provided with supporting rods (12).

6. The rice noodle manufacturing and processing technology according to claim 1, characterized in that: the long laths (13) are symmetrically arranged between the inner walls of the front end and the rear end of the supporting plate (2a) on the bottom plate (1).

Technical Field

The invention relates to the technical field of rice flour production and treatment, in particular to a rice flour manufacturing and processing technology.

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 cooked in water, is matched with various vegetable codes or soup bases to be cooked in soup or fried in dry, 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 cooked rice noodles need to be cooled, dried and conveyed after being cooked.

However, the following problems of the existing rice noodles exist in cooling, drying and conveying, a, the traditional rice noodles are cooled in a water cooling mode during cooling, drying and conveying, the rice noodles are not uniformly shrunk due to rapid cooling because the rice noodles directly enter a water tank for cooling after being formed, the elasticity is not as good as natural air cooling, the taste of the rice noodles is influenced, and the water cooling is not beneficial to automatic line production and is easy to cause pollution of products; b current ground rice cooling conveying equipment when carrying out the cooling to the ground rice and carry, can not carry out the stoving operation to the ground rice after the cooling, reduced the refrigerated efficiency of ground rice to influence the production quality of ground rice, can improve the efficiency and the effect of the cooling of ground rice and carry, improved the production quality of ground rice.

Disclosure of Invention

In order to solve the problems, the invention provides a rice flour manufacturing and processing technology which can solve the problems of the rice flour during cooling, drying and conveying.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a rice flour making and processing technology mainly comprises the following steps:

step one, preparing raw materials, namely preparing the raw materials for making the rice flour, and uniformly stirring the raw materials to obtain the rice flour raw materials which are stirred;

step two, impurity removal and cleaning, namely performing impurity removal and cleaning operation on the stirred rice flour raw material obtained in the step one to obtain the rice flour raw material subjected to impurity removal and cleaning;

step three, soaking and grinding, namely soaking the rice flour raw material which is obtained in the step two and is cleaned after impurity removal, and grinding the soaked rice flour raw material to obtain the rice flour raw material which is ground;

step four, performing dehydration treatment, namely performing dehydration operation on the ground rice flour raw material obtained in the step three to obtain a dehydrated rice flour raw material;

step five, extruding and cooling, namely extruding the dehydrated rice flour raw material obtained in the step four, and cooling the extruded rice flour raw material to obtain a cooled rice flour raw material;

cutting and forming, namely cutting and forming the cooled rice flour raw material obtained in the step five to obtain a cut and formed rice flour raw material;

step seven, cooking operation, namely performing cooking operation on the cut and formed rice flour raw material obtained in the step six to obtain a cooked rice flour raw material;

step eight, cooling and drying, namely placing the cooked rice flour raw material obtained in the step seven into rice flour cooling and drying equipment to carry out cooling and drying operation on the rice flour to obtain formed rice flour;

and step nine, sealing and packaging, namely performing sealing and packaging operation on the molded rice flour obtained in the step eight to obtain finished rice flour.

The rice flour cooling and drying equipment used in the steps comprises a bottom plate, a cooling device, a heat dissipation device and a drying device, wherein the cooling device is installed on the bottom plate, and the heat dissipation device and the drying device are installed on the cooling device.

The cooling device comprises a support plate, a first motor, a hollow round rod, a rotary round rod, a conveyer belt, a rotary circular plate, balls, a connecting plate, a positioning round rod, a driven round rod, a heat dissipation plate, a first gear and a second gear, wherein the support plate is symmetrically arranged at the left end and the right end of the bottom plate, the positioning round rod is uniformly arranged on the inner wall of the lower part of the support plate through a bearing, the connecting plate is arranged on the positioning round rod positioned at the rear end of the lower part of the support plate through a bearing, the positioning round rod is uniformly arranged on the inner wall of the connecting plate, the rotary circular plate is arranged on the positioning round rod, an annular groove is formed in the outer wall of the rotary circular plate along the circumferential direction of the rotary circular plate, an annular groove is formed in the rotary round rod, the annular grooves are uniformly arranged in the annular groove and the annular groove along the circumferential direction, the output end of the first motor is provided with a hollow round rod, the hollow round rod is connected on the outer wall of a rotary round rod positioned in the middle of the lower end of a support plate, the rotary round rods are connected through a conveyer belt, air passing holes are uniformly formed in the conveyer belt along the circumferential direction of the conveyer belt, power gear grooves are formed in the outer walls of the left end and the right end of the conveyer belt along the circumferential direction of the conveyer belt, driven gear grooves are formed in the inner walls of the left end and the right end of the conveyer belt along the circumferential direction of the conveyer belt, air outlet holes are uniformly formed in the outer wall of the rotary round rod along the circumferential direction of the rotary round rod, rotary gear grooves are formed in the outer walls of the left end and the right end of the rotary round rod along the circumferential direction of the rotary round rod, the rotary gear grooves and the driven gear grooves are matched with each other for use, rotary gear grooves are formed in the inner walls of the left, and intermeshing between a gear and the rotation gear groove, be connected through driven round bar between the second gear, evenly install the heating panel along its circumference direction on the driven round bar, be located and install adjustment mechanism on the backup pad outer wall of bottom plate left end, drive the heating panel through driven round bar and rotate, make the heating panel can be to the conveyer belt to ground rice cooling operation, make the conveyer belt carry out the transport to ground rice and carry out the cooling operation in, the cooling efficiency and the effect of ground rice have been improved.

The adjusting mechanism comprises an adjusting frame, an adjusting round rod, a second motor, an adjusting threaded rod and a sliding plate, wherein an arc-shaped groove is formed in the supporting plate positioned at the left end of the bottom plate, the adjusting frame is installed on the outer wall of the supporting plate positioned at the left end of the bottom plate, sliding grooves are formed in the inner walls of the upper end and the lower end of the adjusting frame, the sliding plate is installed in the sliding grooves in a sliding fit mode, an inclined groove is formed in the middle of the sliding plate, an adjusting threaded groove is formed in the lower end of the sliding plate, the second motor is installed on the inner wall of the front end of the adjusting frame, the adjusting threaded rod is installed at the output end of the second motor and is installed in the adjusting threaded groove in a threaded engagement mode, the adjusting round rod is installed on the outer wall of the connecting plate positioned on the left end positioning round rod of the supporting plate, the, the connecting plate can drive the conveyer belt and rotate suitable angle for the conveyer belt can be better carry out the cooling operation to the ground rice.

Heat abstractor include No. three gears, rotate the round bar, No. four gears, No. five gears and flabellum, backup pad lower part about both sides install through the bearing and rotate the round bar, be located the rotation round bar inner of backup pad downside and install No. three gears, and intermeshing uses between No. three gears and the power gear groove, No. four gears are installed to the rotation round bar outer end that is located the backup pad downside, No. five gears are installed to the rotation round bar outer end that is located the backup pad upside, and intermeshing uses between No. four gears and No. five gears, the flabellum is installed to the rotation round bar inner that is located the backup pad upside, through intermeshing between power gear groove on the conveyer belt and No. three gears, make the conveyer belt can drive the flabellum rotation in the pivoted, make the flabellum can further cool off the operation to.

The drying device comprises a drying frame, a third motor, a power threaded rod, a power plate, a power round rod, a tightening round rod, a straight plate and an electric heating tube, wherein an arc-shaped groove is formed in a supporting plate positioned at the right end of the bottom plate, the drying frame is installed on the outer wall of the supporting plate positioned at the right end of the bottom plate, clamping grooves are formed in the inner walls of the upper end and the lower end of the drying frame, the power plate is installed in the clamping grooves in a sliding fit mode, an inclined groove is formed in the middle end of the power plate, a power threaded groove is formed in the lower end of the power plate, the third motor is installed on the outer wall of the lower side of the front end of the drying frame, the power threaded rod is installed at the output end of the third motor, the power threaded rod is installed in the power threaded groove in a threaded engagement mode, the tightening round rod is installed between the inner walls of, the outer wall of the right end of the upper side of the straight plate is provided with the power round rod, the power round rod is arranged at the intersection of the arc-shaped groove and the inclined groove in a sliding fit mode, the rice flour is uniformly dried through the electric heating tube on the straight plate, and the cooling and drying quality of the rice flour is guaranteed.

Backup pad lower part rear side install the square plate, the square groove has been seted up on the square plate, install on the inner wall of square groove upper end and support tight spring beam, support tight spring beam lower extreme and install the flat board, and the flat board is installed in the square groove through sliding fit's mode, No. six gears are installed through the round pin axle in dull and stereotyped the inner, and intermeshing uses between No. six gears and the power gear groove, through the operation of mutually supporting between No. six gears and the power gear groove, make the conveyer belt can support tightly on rotatory pole, make the drive conveyer belt that rotatory pole can be more stable rotate.

As a preferred technical scheme of the invention, the middle end of the bottom plate is provided with a water outlet, and the lower end of the water outlet is provided with a water outlet pipe, so that water generated during the cooling of the rice noodles can be better discharged.

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 cooling the rice noodles.

As a preferable technical scheme of the invention, the long strip plates are symmetrically arranged between the inner walls of the front end and the rear end of the supporting plate on the bottom plate, so that the bottom plate, the supporting plate and the long strip plates can collect moisture generated when the rice noodles are cooled.

The invention has the beneficial effects that:

1. the invention can solve the following problems of the prior rice flour during cooling, drying and conveying, a, the traditional rice flour is cooled by water cooling during cooling, drying and conveying, because the rice flour directly enters a water tank for cooling after being formed, the rice flour is not uniformly shrunk due to rapid cooling, the elasticity is not as good as natural air cooling, the taste of the rice flour is influenced, the water cooling is not beneficial to automatic line production, and the product is easily polluted; b current ground rice cooling conveying equipment when carrying out the cooling to the ground rice and carry, can not carry out the stoving operation to the ground rice after the cooling, reduced the refrigerated efficiency of ground rice to influence the production quality of ground rice, can improve the efficiency and the effect of the cooling of ground rice and carry, improved the production quality of ground rice.

2. The cooling device provided by the invention has the advantages that the hollow round rod is driven to rotate by the first motor, the hollow round rod drives the rotary round rod to rotate, so that the rotary round rod can drive the conveying belt to move, and the second gear can drive the cooling plate to rotate through the driven round rod through the mutual matching operation between the rotary round rod, the rotary round plate, the balls, the connecting plate, the positioning round rod, the driven round rod, the cooling plate, the first gear and the second gear, so that the cooling plate can cool the conveying belt to rice flour, the conveying belt can carry out cooling operation to the rice flour, and the cooling efficiency and the cooling effect of the rice flour are improved.

3. According to the adjusting mechanism designed by the invention, the adjusting threaded rod is driven to rotate by the second motor, the adjusting threaded rod drives the sliding plate to move, and the adjusting round rod can drive the connecting plate to rotate to a certain angle and the connecting plate can drive the conveying belt to rotate to a proper angle through mutual extrusion between the sliding plate and the arc-shaped groove on the supporting plate positioned at the left end of the bottom plate, so that the conveying belt can better cool rice noodles.

4. The heat dissipation device designed by the invention has the advantages that the power gear grooves on the conveying belt are meshed with the third gear, and the rotating round rod, the fourth gear, the fifth gear and the fan blades are matched with each other, so that the conveying belt can drive the fan blades to rotate while rotating, and the fan blades can further cool rice noodles.

5. The drying device designed by the invention can uniformly dry rice noodles through the electric heating tube on the straight plate, so that the cooling and drying quality of the rice noodles is ensured.

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 noodle cooling and drying apparatus of the present invention at a first viewing angle;

FIG. 3 is a schematic structural view of a second view angle of the rice noodle cooling and drying apparatus of the present invention;

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

3 FIG. 35 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 34 3 in 3 accordance 3 with 3 the 3 present 3 invention 3; 3

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 5 in accordance with the present invention;

fig. 7 is a partial structural schematic view of the adjustment mechanism 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 7, a rice noodle making and processing process mainly comprises the following steps:

step one, preparing raw materials, namely preparing the raw materials for making the rice flour, and uniformly stirring the raw materials to obtain the rice flour raw materials which are stirred;

step two, impurity removal and cleaning, namely performing impurity removal and cleaning operation on the stirred rice flour raw material obtained in the step one to obtain the rice flour raw material subjected to impurity removal and cleaning;

step three, soaking and grinding, namely soaking the rice flour raw material which is obtained in the step two and is cleaned after impurity removal, and grinding the soaked rice flour raw material to obtain the rice flour raw material which is ground;

step four, performing dehydration treatment, namely performing dehydration operation on the ground rice flour raw material obtained in the step three to obtain a dehydrated rice flour raw material;

step five, extruding and cooling, namely extruding the dehydrated rice flour raw material obtained in the step four, and cooling the extruded rice flour raw material to obtain a cooled rice flour raw material;

cutting and forming, namely cutting and forming the cooled rice flour raw material obtained in the step five to obtain a cut and formed rice flour raw material;

step seven, cooking operation, namely performing cooking operation on the cut and formed rice flour raw material obtained in the step six to obtain a cooked rice flour raw material;

step eight, cooling and drying, namely placing the cooked rice flour raw material obtained in the step seven into rice flour cooling and drying equipment to carry out cooling and drying operation on the rice flour to obtain formed rice flour;

and step nine, sealing and packaging, namely performing sealing and packaging operation on the molded rice flour obtained in the step eight to obtain finished rice flour.

The rice flour cooling and drying equipment used in the steps comprises a bottom plate 1, a cooling device 2, a heat dissipation device 3 and a drying device 4, wherein the cooling device 2 is installed on the bottom plate 1, and the heat dissipation device 3 and the drying device 4 are installed on the cooling device 2.

The adjusting mechanism 21 comprises an adjusting frame 211, an adjusting round rod 212, a second motor 213, an adjusting threaded rod 214 and a sliding plate 215, an arc-shaped groove is arranged on a supporting plate 2a positioned at the left end of the bottom plate 1, the adjusting frame 211 is arranged on the outer wall of the supporting plate 2a positioned at the left end of the bottom plate 1, sliding grooves are arranged on the inner walls of the upper end and the lower end of the adjusting frame 211, the sliding plate 215 is arranged in the sliding grooves in a sliding fit mode, an inclined groove is arranged in the middle of the sliding plate 215, an adjusting threaded groove is arranged at the lower end of the sliding plate 215, the second motor 213 is arranged on the inner wall of the front end of the, and the adjusting threaded rod 214 is installed in the adjusting threaded groove in a threaded engagement manner, the adjusting round rod 212 is installed on the outer wall of the connecting plate 2h positioned on the left end positioning round rod 2i of the supporting plate 2a, and the adjusting round rod 212 is installed at the intersection of the inclined groove and the arc-shaped groove in a sliding fit manner.

During specific work, No. two motors 213 drive adjusting threaded rod 214 and rotate, and adjusting threaded rod 214 drives sliding plate 215 through thread engagement's mode and moves, through the extrusion between the oblique type groove on sliding plate 215 and the arc wall that is located on the backup pad 2a of bottom plate 1 left end for adjust round bar 212 and drive connecting plate 2h and rotate suitable angle, and connecting plate 2h drives conveyer belt 2e and rotates into suitable angle.

The cooling device 2 comprises a supporting plate 2a, a first motor 2b, a hollow round rod 2c, a rotary round rod 2d, a conveying belt 2e, a rotary round plate 2f, balls 2g, a connecting plate 2h, a positioning round rod 2i, a driven round rod 2j, a heat dissipation plate 2k, a first gear 2l and a second gear 2m, wherein the supporting plate 2a is symmetrically arranged at the left end and the right end of the bottom plate 1, the positioning round rod 2i is uniformly arranged on the inner wall of the lower part of the supporting plate 2a through a bearing, the connecting plate 2h is arranged on the positioning round rod 2i positioned at the rear end of the lower part of the supporting plate 2a through a bearing, the positioning round rod 2i is uniformly arranged on the inner wall of the connecting plate 2h, the rotary round plate 2f is arranged on the positioning round rod 2i, an annular groove is arranged on the outer wall of the rotary round plate 2f along the circumferential direction, a circular groove is arranged in the rotary round rod, the ring-shaped groove and the circular groove are uniformly provided with balls 2g along the circumferential direction, the outer wall of a supporting plate 2a positioned at the left end of the bottom plate 1 is provided with a motor 2b, the output end of the motor 2b is provided with a hollow round rod 2c, the hollow round rod 2c is connected on the outer wall of a rotary round rod 2d positioned at the middle part of the lower end of the supporting plate 2a, the rotary round rods 2d are connected through a conveying belt 2e, the conveying belt 2e is uniformly provided with air passing holes along the circumferential direction, the outer walls of the left and right ends of the conveying belt 2e are provided with power gear grooves along the circumferential direction, the inner walls of the left and right ends of the conveying belt 2e are provided with driven gear grooves along the circumferential direction, the outer wall of the rotary round rod 2d is uniformly provided with air outlet holes along the circumferential direction, the outer walls of the left and right ends of the rotary round rod 2d are, be provided with along its circumference direction and rotate the gear groove on the both ends inner wall about rotatory round bar 2d, evenly install a gear 2l along its circumference direction on the rotatory plectane 2f through the round pin axle, the rotatory plectane 2f centre of a circle department installs No. two gears 2m with a gear 2l intermeshing through the round pin axle, and intermeshing between a gear 2l and the rotation gear groove, be connected through driven round bar 2j between No. two gears 2m, evenly install heating panel 2k along its circumference direction on the driven round bar 2j, install adjustment mechanism 21 on the backup pad 2a outer wall that is located the 1 left end of bottom plate.

The rear side of the lower portion of the supporting plate 2a is provided with a square plate 22, a square groove is formed in the square plate 22, the inner wall of the upper end of the square groove is provided with a tight spring rod 23, the lower end of the tight spring rod 23 is provided with a flat plate 24, the flat plate 24 is arranged in the square groove in a sliding fit mode, the inner end of the flat plate 24 is provided with a number six gear 25 through a pin shaft, and the number six gear 25 and the power gear groove are meshed with each other for use.

When the rice noodle cooking machine works, under the abutting action of the abutting spring rod 23, the abutting spring rod 23 drives the flat plate 24 to move towards the lower end, the flat plate 24 drives the sixth gear 25 to abut against the power gear groove on the conveying belt 2e, so that the conveying belt 2e abuts against the rotary round rod 2d, the first motor 2b drives the hollow round rod 2c to rotate, the hollow round rod 2c drives the rotary round rod 2d to rotate, the rotary round rod 2d drives the conveying belt 2e to rotate through gear meshing between the rotary gear groove and the driven gear groove on the conveying belt 2e, so that the conveying belt 2e drives the cooked rice noodles to move, meanwhile, the rotary round rod 2d drives the first gear 2l to rotate through the mutual meshing of the rotary gear groove and the first gear 2l, the first gear 2l drives the second gear 2m to rotate through the gear meshing, the second gear 2m drives the driven round rod 2j to rotate, driven round bar 2j drives heating panel 2k and rotates for heating panel 2k can cool off the heat dissipation operation to the rice flour after cooking.

Heat abstractor 3 include No. three gears 31, rotate round bar 32, No. four gears 33, No. five gears 34 and flabellum 35, backup pad 2a lower part about both sides install through the bearing and rotate round bar 32, be located the rotation round bar 32 inner of backup pad 2a downside and install No. three gears 31, and intermeshing uses between No. three gears 31 and the power gear groove, be located the rotation round bar 32 outer end of backup pad 2a downside and install No. four gears 33, be located the rotation round bar 32 outer end of backup pad 2a upside and install No. five gears 34, and intermeshing uses between No. four gears 33 and No. five gears 34, be located the rotation round bar 32 inner of backup pad 2a upside and install flabellum 35.

During specific work, conveyer belt 2e pivoted in, through the intermeshing between the power gear groove on the conveyer belt 2e and No. three gears 31 drive No. three gear revolve, No. three gears 31 drive the rotation round bar 32 that is located backup pad 2a downside and rotate, the rotation round bar 32 that is located backup pad 2a downside drives No. four gears 33 and rotates, No. four gears 33 drive No. five gears 34 through gear meshing's mode and rotate, No. five gears 34 drive flabellum 35 through the rotation round bar 32 that is located backup pad 2a upside and rotate, make flabellum 35 carry out the cooling operation to the ground rice on the conveyer belt 2 e.

The drying device 4 comprises a drying frame 41, a third motor 42, a power threaded rod 43, a power plate 44, a power round rod 45, a resisting round rod 46, a straight plate 47 and an electric heating tube 48, wherein an arc-shaped groove is formed in a supporting plate 2a at the right end of the bottom plate 1, the drying frame 41 is installed on the outer wall of the supporting plate 2a at the right end of the bottom plate 1, clamping grooves are formed in the inner walls of the upper end and the lower end of the drying frame 41, the power plate 44 is installed in the clamping grooves in a sliding fit mode, an inclined groove is formed in the middle end of the power plate 44, a power threaded groove is formed in the lower end of the power plate 44, the third motor 42 is installed on the outer wall of the lower side of the front end of the drying frame 41, the power threaded rod 43 is installed at the output end of the third motor 42, the resisting round rod 46 is installed between the inner walls of the upper portions of the supporting, the upper end and the lower end of the straight plate 47 are provided with straight grooves, electric heating tubes 48 are uniformly arranged between the inner walls of the straight grooves, the outer wall of the right end at the upper side of the straight plate 47 is provided with a power round rod 45, and the power round rod 45 is arranged at the intersection of the arc-shaped groove and the inclined groove in a sliding fit mode.

The middle end of the bottom plate 1 is provided with a water outlet, and the lower end of the water outlet is provided with a water outlet pipe 11.

The long laths 13 are symmetrically arranged between the inner walls of the front end and the rear end of the supporting plate 2a on the bottom plate 1.

During specific work, No. three motor 42 drives power threaded rod 43 and rotates, power threaded rod 43 drives power plate 44 through thread engagement's mode and moves, extrude each other between the oblique form groove on power plate 44 and the arcuation groove on the backup pad 2a that is located bottom plate 1 right-hand member, make power plate 44 drive power round bar 45 motion, power round bar 45 drives straight board 47 and uses to support tight round bar 46 to rotate as the centre of a circle, straight board 47 drives electrothermal tube 48 and rotates suitable angle, make electrothermal tube 48 can carry out the stoving operation to the ground rice on conveyer belt 2e, the moisture of stoving passes through outlet pipe 11 on the bottom plate 1 and flows out, can cool off the stoving operation to the ground rice on conveyer belt 2 e.

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.