CN215958170U - Rice frying production line - Google Patents

Abstract

The utility model discloses a fried rice production line, which comprises a feeding device, a vibrating screening mechanism, a quantitative hopper, a saucepan mechanism, a draining mechanism, a frying mechanism, a rice mill and a color selector, wherein: the feeding device, the vibration screening mechanism, the quantitative hopper, the saucepan mechanism, the draining mechanism, the frying mechanism, the rice mill and the color sorter are respectively provided with a feeding hole and a discharging hole; the discharge hole of the feeding device is connected with the feed hole of the vibration screening mechanism; the discharge hole of the vibration screening mechanism is connected with the feed inlet of the quantitative hopper; the discharge hole of the quantitative hopper is connected with the feed inlet of the boiler mechanism; the discharge hole of the draining mechanism is connected with the feed inlet of the frying mechanism; the discharge port of the frying mechanism is connected with the feed port of the rice mill; the discharge port of the rice mill is connected with the feed inlet of the color selector. The utility model has the beneficial effects that: reasonable layout, high automation degree and high production efficiency, greatly saves labor cost, ensures stable quality of processed finished products, and can meet the requirements of industrial production.

Description

Rice frying production line

Technical Field

The utility model relates to the field of machinery, in particular to a fried rice production line.

Background

The Mongolia called Mongolia Lebanda means the fried rice. The millet is processed by multiple procedures of steaming, frying, grinding and the like, is fragrant and tasty, can allay hunger and hunger, and is a traditional food with unique flavor. Because of water immersion, the water-soluble vitamins in the surface layer of the minced fillet skin permeate into the rice grains, and the content of the vitamins in the fried rice is increased.

In the traditional processing technology of fried rice, a plurality of steps of a plurality of processes are required to be combined and completed, the materials are required to be processed and transferred for a plurality of times, the process is often completed manually, the automation degree and the production efficiency are low, the product quality is large in floating, and large-scale industrial production cannot be realized.

Disclosure of Invention

The utility model aims to provide a fried rice production line which is reasonable in layout, high in automation degree and production efficiency, greatly saves labor cost, is stable in quality of processed finished products and can meet the requirements of industrial production.

The utility model is realized by the following technical scheme:

the utility model relates to a fried rice production line, which comprises a feeding device, a vibrating screening mechanism, a quantitative hopper, a saucepan mechanism, a draining mechanism, a frying mechanism, a rice mill and a color selector, wherein: the feeding device, the vibration screening mechanism, the quantitative hopper, the saucepan mechanism, the draining mechanism, the frying mechanism, the rice mill and the color sorter are respectively provided with a feeding hole and a discharging hole; the discharge hole of the feeding device is connected with the feed hole of the vibration screening mechanism; the discharge hole of the vibration screening mechanism is connected with the feed inlet of the quantitative hopper; the discharge hole of the quantitative hopper is connected with the feed inlet of the boiler mechanism; the discharge hole of the draining mechanism is connected with the feed inlet of the frying mechanism; the discharge port of the frying mechanism is connected with the feed port of the rice mill; the discharge port of the rice mill is connected with the feed inlet of the color selector.

The fried rice production water line of foretell, wherein: the feeding device comprises a feeding mechanism, a storage bin, a feeding conveyor belt, a gathering conveyor belt and a central elevator; the feeding mechanism is fixedly assembled and connected with the two bins; the two bins are arranged in mirror symmetry; the material outlets of the two bins are respectively positioned at the lower end positions of the two bins, the feeding conveyor belts are respectively arranged below the two material outlets, and the transmission directions of the two feeding conveyor belts are arranged in opposite directions; a material gathering conveyor belt is arranged below the material outlet of the feeding conveyor belt, and the transmission direction of the material gathering conveyor belt is vertical to the transmission direction of the feeding conveyor belt; the material outlet of the material gathering conveyor belt is connected with the material inlet of the central hoisting machine in a matching way; the material outlet of the central hoister is fixedly connected with the vibrating screening mechanism in a matched manner; the vibrating screening mechanism comprises a material distributing pipeline, a vibrating screen machine, a dust removing fan and a discharging hoister; the material distributing pipeline is connected with a material outlet of the central hoister in a matching way, the material distributing pipeline is provided with three branch pipes which are respectively connected with a material inlet of a vibrating screen machine in a matching way, and the branch pipes are provided with switch valves; a dust removal fan is arranged on the vibrating screen machine; the vibrating screen machine is fixedly connected with the discharging hoister in a matching way; the discharge elevator is connected with the feed inlet of the quantitative hopper; the material outlet of the central hoister is connected with the material distributing pipeline in a matching way.

The fried rice production water line of foretell, wherein: the feed inlet of the quantitative hopper is connected with the discharge elevator in a matching way; a flow meter is arranged at the discharge port of the quantitative hopper, the flow meter is electrically connected with a microprocessor, and the microprocessor is electrically connected with the feeding device and controls the feeding device to start and stop; the discharge port of the quantitative hopper is connected with the boiler mechanism through a conveyor belt.

The fried rice production water line of foretell, wherein: the boiling mechanism comprises a pot body, a stirring mechanism and a heating device, wherein the stirring mechanism is arranged in the pot body, and the heating device is arranged at the bottom of the pot body; the draining mechanism comprises a draining basket and a water receiving tank, and the draining basket is movably connected inside the water receiving tank; the discharge hole of the boiler mechanism is connected with the draining basket of the draining mechanism.

The fried rice production water line of foretell, wherein: stir and make mechanism and include base mechanism, cylinder mechanism, stir-fry system feed mechanism and discharge mechanism, wherein: the base mechanism comprises a support frame and a power mechanism, and the support frame comprises a frame body and a limiting roller; a limiting roller is arranged above the frame body, and a roller mechanism is assembled and connected above the limiting roller; the power mechanism is connected with the limiting idler wheel in a matching way to drive the limiting idler wheel to rotate; the two end surfaces of the roller mechanism are respectively provided with a frying feeding mechanism and a discharging mechanism; the roller mechanism comprises an outer cylinder, an inner cylinder and a rolling ring; the rolling ring is fixedly connected to the outer wall of the outer barrel and is connected with the limiting idler wheel in an assembling way; the outer cylinder is coaxially and fixedly sleeved outside the inner cylinder; a burner is arranged at the frying and feeding mechanism; iron sand is arranged inside the roller mechanism; two end faces of the outer cylinder are fixedly and hermetically connected with the outer wall of the inner cylinder; two rolling rings are arranged and are respectively positioned at the two ends of the outer cylinder; the inner wall of the outer barrel is provided with an outer barrel packing auger, the inner wall of the inner barrel is provided with an inner barrel packing auger, and the spiral directions of the outer barrel packing auger and the inner barrel packing auger are opposite; one end of the inner cylinder, which is close to the discharging mechanism, is provided with a sieve pore which is used as an outlet of the material; one end of the inner cylinder, which is close to the stir-frying feeding mechanism, is provided with a through hole as an inlet of materials.

The fried rice production water line of foretell, wherein: the feeding mechanism comprises a feeding hole, an inverted V-shaped pipeline and a feeding elevator; a feed inlet is arranged above the inverted V-shaped pipeline, and the lower part of the inverted V-shaped pipeline is respectively connected with the material inlets of the two feeding hoists in a matching way; the material outlet of the material hoister is communicated and fixedly connected with the inner cavity of the storage bin.

The fried rice production water line of foretell, wherein: the stirring mechanism comprises a fixed transverse plate, a stirring device and a motor; the fixed transverse plate is fixedly connected to the pot edge above the saucepan; the stirring device is fixedly connected with an output shaft of the motor; the motor is fixedly connected to the fixed transverse plate; the stirring device comprises a vertical shaft, a horizontal shaft and stirring blades; the vertical shaft is fixedly connected with the transverse shaft in an inverted T shape, and the vertical shaft is coaxially and fixedly connected with an output shaft of the motor; two end surfaces of the transverse shaft are respectively and fixedly connected with a stirring blade.

The utility model has the beneficial effects that: reasonable layout, high automation degree and high production efficiency, greatly saves labor cost, ensures stable quality of processed finished products, and can meet the requirements of industrial production.

Drawings

FIG. 1: the structure of the utility model is connected with the schematic diagram;

FIG. 2: the utility model discloses a structural schematic diagram of a feeding device and a vibration screening mechanism;

FIG. 3: the utility model relates to a structural schematic diagram of a frying mechanism;

in the figure: 1-feeding device, 2-vibration screening mechanism, 3-quantitative hopper, 4-saucepan mechanism, 5-draining mechanism, 6-frying mechanism, 7-rice mill, 8-color sorter, 11-feeding mechanism, 12-stock bin, 13-feeding conveyor belt, 14-gathering conveyor belt, 15-central elevator, 21-material separating pipeline, 22-vibration screening machine, 23-dust removing fan, 24-discharging elevator, 61-base mechanism, 62-roller mechanism, 63-frying feeding mechanism and 64-discharging mechanism.

Detailed Description

The utility model is further described with reference to the following figures and detailed description:

example (b): as shown in fig. 1-3, a fried rice production line comprises a feeding device 1, a vibrating screening mechanism 2, a quantitative hopper 3, a saucepan mechanism 4, a draining mechanism 5, a frying mechanism 6, a rice mill 7 and a color selector 8, wherein: a feeding hole and a discharging hole are respectively arranged on the feeding device 1, the vibration screening mechanism 2, the quantitative hopper 3, the saucepan mechanism 4, the draining mechanism 5, the frying mechanism 6, the rice mill 7 and the color sorter 8; the discharge hole of the feeding device 1 is connected with the feed hole of the vibration screening mechanism 2; the discharge hole of the vibrating screening mechanism 2 is connected with the feed inlet of the quantitative hopper 3; the discharge hole of the quantitative hopper 3 is connected with the feed inlet of the boiler mechanism 4; the discharge hole of the draining mechanism 5 is connected with the feed inlet of the frying mechanism 6; the discharge port of the frying mechanism 6 is connected with the feed inlet of the rice mill 7; the discharge hole of the rice mill 7 is connected with the feed inlet of the color sorter 8; wherein: the feeding device comprises a feeding mechanism 11, a bin 12, a feeding conveyor belt 13, a gathering conveyor belt 14 and a central elevator 15; the feeding mechanism 11 is fixedly assembled and connected with the two bins 12; the two bins 12 are arranged in mirror symmetry; the material outlets of the two bins 12 are respectively positioned at the lower end positions, the feeding conveyor belts 13 are respectively arranged below the two material outlets, and the transmission directions of the two feeding conveyor belts 13 are arranged in opposite directions; a gathering conveyor belt 14 is arranged below the material outlet of the feeding conveyor belt 13, and the transmission direction of the gathering conveyor belt 14 is vertical to the transmission direction of the feeding conveyor belt 13; the material outlet of the material gathering conveyor belt 14 is connected with the material inlet of the central hoisting machine 15 in a matching way; the material outlet of the central hoister 15 is fixedly connected with the vibrating screening mechanism 2 in an assembling way; the vibrating screening mechanism 2 comprises a material distributing pipeline 21, a vibrating screen 22, a dust removing fan 23 and a discharging elevator 24; the distributing pipeline 21 is connected with the material outlet of the central hoister 15 in a matching way, the distributing pipeline 21 is provided with three branch pipes which are respectively connected with the material inlet of a vibrating screen 22 in a matching way, and the branch pipes are provided with switch valves; the vibrating screen 22 is provided with a dust removal fan 23; the vibrating screen 22 is fixedly connected with the discharging elevator 24 in a matching way; the discharge elevator 24 is connected with the feed inlet of the quantitative hopper 3; the material outlet of the central hoisting machine 15 is fittingly connected with a distributing pipeline 21.

Wherein: the feed inlet of the quantitative hopper 3 is connected with a discharge elevator 24 in a matching way; a flow meter is arranged at the discharge port of the quantitative hopper 3 and is electrically connected with a microprocessor, and the microprocessor is electrically connected with the feeding device 1 and controls the starting and stopping of the feeding device; the discharge hole of the quantitative hopper 3 is connected with the saucepan mechanism 4 through a conveyor belt; the boiler mechanism 4 comprises a boiler body, a stirring mechanism and a heating device, wherein the stirring mechanism is arranged in the boiler body, and the heating device is arranged at the bottom of the boiler body; the draining mechanism 5 comprises a draining basket and a water receiving tank, and the draining basket is movably connected inside the water receiving tank; the discharge hole of the boiler mechanism 4 is connected with the draining basket of the draining mechanism 5.

Wherein: the frying mechanism 6 comprises a base mechanism 61, a roller mechanism 62, a frying feeding mechanism 63 and a discharging mechanism 64, wherein: the base mechanism 61 comprises a support frame and a power mechanism, and the support frame comprises a frame body and a limiting roller; a limiting roller is arranged above the frame body, and a roller mechanism 62 is assembled and connected above the limiting roller; the power mechanism is connected with the limiting idler wheel in a matching way to drive the limiting idler wheel to rotate; the two end surfaces of the roller mechanism 62 are respectively provided with a frying feeding mechanism 63 and a discharging mechanism 64; the roller mechanism 62 includes an outer cylinder, an inner cylinder and a rolling ring; the rolling ring is fixedly connected to the outer wall of the outer barrel and is connected with the limiting idler wheel in an assembling way; the outer cylinder is coaxially and fixedly sleeved outside the inner cylinder; a burner is arranged at the frying and feeding mechanism 63; iron sand is arranged inside the roller mechanism 62; two end faces of the outer cylinder are fixedly and hermetically connected with the outer wall of the inner cylinder; two rolling rings are arranged and are respectively positioned at the two ends of the outer cylinder; the inner wall of the outer barrel is provided with an outer barrel packing auger, the inner wall of the inner barrel is provided with an inner barrel packing auger, and the spiral directions of the outer barrel packing auger and the inner barrel packing auger are opposite; one end of the inner cylinder close to the discharging mechanism 64 is provided with a sieve pore as an outlet of the material; one end of the inner cylinder close to the stir-frying feeding mechanism 63 is provided with a through hole as an inlet of the material.

Wherein: the feeding mechanism 11 comprises a feeding hole, an inverted V-shaped pipeline and a feeding elevator; a feed inlet is arranged above the inverted V-shaped pipeline, and the lower part of the inverted V-shaped pipeline is respectively connected with the material inlets of the two feeding hoists in a matching way; a material outlet of the material hoister is communicated and fixedly connected with an inner cavity of the bin 12; wherein: the stirring mechanism comprises a fixed transverse plate, a stirring device and a motor; the fixed transverse plate is fixedly connected to the pot edge above the saucepan; the stirring device is fixedly connected with an output shaft of the motor; the motor is fixedly connected to the fixed transverse plate; the stirring device comprises a vertical shaft, a horizontal shaft and stirring blades; the vertical shaft is fixedly connected with the transverse shaft in an inverted T shape, and the vertical shaft is coaxially and fixedly connected with an output shaft of the motor; two end surfaces of the transverse shaft are respectively and fixedly connected with a stirring blade.

When in work: the material firstly enters a feeding mechanism 11 of a feeding device 1, and the material is conveyed to two bins 12 by a lifting machine through the feeding mechanism 11, so that the material storage function is realized; meanwhile, the two branch pipes of the V-shaped pipe of the feeding mechanism 11 can be controlled to be opened and closed independently, so as to realize the function of conveying different materials to the two bins 12; then the materials are collected to a material collecting conveyor belt 14 through two feeding conveyor belts 13 by a bin 12, and the action can realize the material mixing function; then the materials are conveyed to a central hoister 15 by a material converging conveyor belt 14, the central hoister 15 hoists and conveys the materials to a material distributing pipeline 21, and the materials are distributed by the material distributing pipeline 21 and conveyed to three vibrating screen machines 22 to remove impurities from the materials; the material after impurity removal is conveyed to the quantitative hopper 3 again, when the quality of the conveyed material reaches the preset value of the quantitative hopper 3, a flow meter arranged at the discharge port of the quantitative hopper 3 sends an electric signal to a microprocessor, and then the microprocessor sends stop electric signals to the feeding conveyor belt 13, the gathering conveyor belt 14, the central elevator 15, the vibrating screen 22 and the discharge elevator 24 respectively to stop the machine until the machine is manually started next time.

And the materials reaching the quantitative hopper 3 are continuously conveyed to the boiler mechanism 4 through the conveyor belt, after being boiled, the materials are poured into the draining mechanism 5 for draining, the drained materials are delivered into the frying mechanism 6 for full frying, then conveyed into the rice mill 7 through the conveyor belt and the lifter for rolling, and finally conveyed to the color sorter 8 through the conveyor belt and the lifter for impurity removal, so that finished fried rice is obtained.

In addition, the dust removal fan 23 of the vibration screening mechanism 2 and the fan on the rice mill 7 are communicated and connected with a dust removal pipeline through pipelines; and the boiler mechanism 4 and the frying mechanism 6 are respectively provided with a waste heat recovery pipeline and are communicated and connected with a waste heat recovery pipeline.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a fried rice production water line, includes loading attachment (1), vibration screening mechanism (2), quantitative hopper (3), saucepan mechanism (4), waterlogging caused by excessive rainfall mechanism (5), fries system mechanism (6), rice mill (7) and look selection machine (8), its characterized in that: the feeding device (1), the vibration screening mechanism (2), the quantitative hopper (3), the saucepan mechanism (4), the draining mechanism (5), the frying mechanism (6), the rice mill (7) and the color sorter (8) are respectively provided with a feeding hole and a discharging hole; the discharge hole of the feeding device (1) is connected with the feed hole of the vibration screening mechanism (2); the discharge hole of the vibrating screening mechanism (2) is connected with the feed inlet of the quantitative hopper (3); the discharge hole of the quantitative hopper (3) is connected with the feed inlet of the saucepan mechanism (4); the discharge hole of the draining mechanism (5) is connected with the feed inlet of the frying mechanism (6); the discharge hole of the frying mechanism (6) is connected with the feed inlet of the rice mill (7); and a discharge hole of the rice mill (7) is connected with a feed inlet of the color sorter (8).

2. The parched rice production line as claimed in claim 1, wherein: the feeding device comprises a feeding mechanism (11), a storage bin (12), a feeding conveyor belt (13), a gathering conveyor belt (14) and a central elevator (15); the feeding mechanism (11) is fixedly assembled and connected with the two bins (12); the two storage bins (12) are arranged in mirror symmetry; the material outlets of the two bins (12) are respectively positioned at the lower end positions of the two bins, the feeding conveyor belts (13) are respectively arranged below the two material outlets, and the transmission directions of the two feeding conveyor belts (13) are arranged in opposite directions; a gathering conveyor belt (14) is arranged below the material outlet of the feeding conveyor belt (13), and the transmission direction of the gathering conveyor belt (14) is vertical to the transmission direction of the feeding conveyor belt (13); the material outlet of the material gathering conveyor belt (14) is connected with the material inlet of the central hoisting machine (15) in a matching way; the material outlet of the central hoister (15) is fixedly connected with the vibrating screening mechanism (2) in a matching way; the vibrating screening mechanism (2) comprises a material distributing pipeline (21), a vibrating screening machine (22), a dust removing fan (23) and a discharging elevator (24); the material distributing pipeline (21) is connected with a material outlet of the central hoister (15) in a matching way, the material distributing pipeline (21) is provided with three branch pipes which are respectively connected with a material inlet of a vibrating screen (22) in a matching way, and the branch pipes are provided with switch valves; a dust removal fan (23) is arranged on the vibration screening machine (22); the vibrating screen machine (22) is fixedly connected with the discharging elevator (24) in a matching way; the discharging elevator (24) is connected with a feeding hole of the quantitative hopper (3); the material outlet of the central hoister (15) is connected with the material distributing pipeline (21) in a matching way.

3. The parched rice production line as claimed in claim 2, wherein: the feed inlet of the quantitative hopper (3) is connected with a discharge elevator (24) in a matching way; a flow meter is arranged at the discharge port of the quantitative hopper (3), the flow meter is electrically connected with a microprocessor, and the microprocessor is electrically connected with the feeding device (1) and controls the feeding device to start and stop; the discharge hole of the quantitative hopper (3) is connected with the saucepan mechanism (4) through a conveyor belt.

4. The parched rice production line as claimed in claim 2, wherein: the saucepan mechanism (4) comprises a saucepan body, a stirring mechanism and a heating device, wherein the stirring mechanism is arranged in the saucepan body, and the heating device is arranged at the bottom of the saucepan body; the draining mechanism (5) comprises a draining basket and a water receiving tank, and the draining basket is movably connected inside the water receiving tank; the discharge hole of the saucepan mechanism (4) is connected with the draining basket of the draining mechanism (5).

5. The parched rice production line as claimed in claim 2, wherein: the frying mechanism (6) comprises a base mechanism (61), a roller mechanism (62), a frying feeding mechanism (63) and a discharging mechanism (64); the base mechanism (61) comprises a support frame and a power mechanism, and the support frame comprises a frame body and a limiting roller; a limiting roller is arranged above the frame body, and a roller mechanism (62) is assembled and connected above the limiting roller; the power mechanism is connected with the limiting idler wheel in a matching way to drive the limiting idler wheel to rotate; the two end surfaces of the roller mechanism (62) are respectively provided with a stir-frying feeding mechanism (63) and a discharging mechanism (64); the roller mechanism (62) comprises an outer cylinder, an inner cylinder and a rolling ring; the rolling ring is fixedly connected to the outer wall of the outer barrel and is connected with the limiting idler wheel in an assembling way; the outer cylinder is coaxially and fixedly sleeved outside the inner cylinder; a burner is arranged at the frying and feeding mechanism (63); iron sand is arranged inside the roller mechanism (62); two end faces of the outer cylinder are fixedly and hermetically connected with the outer wall of the inner cylinder; two rolling rings are arranged and are respectively positioned at the two ends of the outer cylinder; the inner wall of the outer barrel is provided with an outer barrel packing auger, the inner wall of the inner barrel is provided with an inner barrel packing auger, and the spiral directions of the outer barrel packing auger and the inner barrel packing auger are opposite; one end of the inner cylinder, which is close to the discharging mechanism (64), is provided with a sieve pore which is used as an outlet of the material; one end of the inner cylinder, which is close to the stir-frying feeding mechanism (63), is provided with a through hole as an inlet of materials.

6. The parched rice production line as claimed in claim 2, wherein: the feeding mechanism (11) comprises a feeding hole, an inverted V-shaped pipeline and a feeding elevator; a feed inlet is arranged above the inverted V-shaped pipeline, and the lower part of the inverted V-shaped pipeline is respectively connected with the material inlets of the two feeding hoists in a matching way; the material outlet of the material hoister is communicated and fixedly connected with the inner cavity of the storage bin (12).

7. The parched rice production line as claimed in claim 4, wherein: the stirring mechanism comprises a fixed transverse plate, a stirring device and a motor; the fixed transverse plate is fixedly connected to the pot edge above the saucepan; the stirring device is fixedly connected with an output shaft of the motor; the motor is fixedly connected to the fixed transverse plate; the stirring device comprises a vertical shaft, a horizontal shaft and stirring blades; the vertical shaft is fixedly connected with the transverse shaft in an inverted T shape, and the vertical shaft is coaxially and fixedly connected with an output shaft of the motor; two end surfaces of the transverse shaft are respectively and fixedly connected with a stirring blade.

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