CN209965209U - Multifunctional five-cereal vermicelli processing device - Google Patents

Abstract

This multi-functional five cereals vermicelli processingequipment: the food processing equipment can process viscous and non-viscous materials, the materials in the charging basket are extruded by the vertical extrusion mechanism, and the materials in the charging basket and the material conveying barrel are heated by the electric heater, so that the purposes of mechanical replacement of manpower and one-time processing are realized, and the food can be eaten without secondary cooking by a cooker, and time and labor are saved; through the combination with the stuffing filling device, stuffed food which can not be processed by the traditional process can be realized, so that the food is more diversified; through the combination with the cutting device, the food can be cut into various required lengths, so that the requirements of people are met; the device is simple to operate, safe and reliable, and convenient to disassemble and wash.

Description

Multifunctional five-cereal vermicelli processing device

[ technical field ]

The utility model relates to a food processing device, in particular to a multifunctional five-cereal vermicelli processing device.

[ background art ]

A household automatic noodle maker in the market at present drives a stirring rod in a charging basket on a supporting frame to rotate by a motor, and then drives a screw rod in a conveying barrel at the bottom of the charging basket to rotate and extrude by a transmission part, so that materials overflow from a discharging nozzle to prepare raw noodles; the noodles can be eaten after being cooked by boiling water in a pot; the traditional method for making and boiling noodles is very complicated, time-consuming and labor-consuming, and can not process non-sticky materials; the invention relates to a processing device which can process viscous and non-viscous materials by replacing manual work with machinery, can process the materials at one time and can eat the materials without secondary cooking by a cooker.

[ summary of the invention ]

To foretell not enough, the utility model provides a multi-functional five cereals vermicelli processingequipment, it adopts motor, drive disk assembly, storage bucket, puddler, the combination of defeated feed cylinder and hob and ejection of compact mouth, vertical extrusion mechanism, electric heater in the horizontal extrusion mechanism, solves mechanical substitution manual work, processing viscidity and non-viscidity material to disposable processing need not the secondary and cooks the problem edible promptly.

The utility model discloses a realize through following technical scheme: the multi-functional five cereals vermicelli processingequipment includes: 1 motor, 2 vibrating motor, 3 bevel gear, 4 linkage shaft, 5 connecting tube, 601 torsion bar, 602 movable bolt, 7 converting connecting rod, 801 converting first gear, 802 second gear, 803 stirring third gear, 804 shaft tongue, 9 heating and stuffing filling switch, 10 temperature control switch, 11 stirring rod, 1201 barrel, 1202 rotating shaft, 1203 normally closed door leaf, 13 supporting frame, 1401 extrusion connecting rod, 1402 fourth gear, 1403 forward rotation fifth gear, 1404 reverse rotation sixth gear, 1405 seventh gear, 1406 extrusion eighth gear, 15 swing frame, 1601 screw, 1602 rod pad, 17 extrusion gear rack, 1701 spring fastener, 18 micro switch, 19 extrusion disk, 20 ninth gear, 2101 stuffing barrel, 2101 stuffing filling tenth gear, 2103 stuffing filling first spiral rod, 22 stuffing filling motor, 2301 electromagnetic heating controller, 2302 first heating coil, 2303 second heating coil, 2304 third heating coil, 2401 material conveying barrel, 2402 conveying a second spiral rod, a 2403 discharging nozzle, 2501 steel wires, a 2502 cutting frame, a 2503 spring, a 2504 swing arm, a 2505 cutting motor and a 2506 push-pull rod, and is characterized in that a supporting frame 13 is positioned in the middle of the whole device, a barrel body 1201 is placed in the supporting frame, an extrusion disc 19, a rod pad 1602 and a screw 1601 in an extrusion mechanism are arranged above the barrel body 1201, the extrusion disc 19 is movably connected with the rod pad 1602 above the extrusion disc, the rod pad 1602 is installed and fixed at the bottom of the screw 1601, the screw 1601 is positioned on the central shaft of an extrusion eighth gear 1406, and the extrusion eighth gear 1406 is fixed in the extrusion carrier 17 and is movably connected with the extrusion disc; a spring fastener 1701 is arranged above the extrusion gear rack 17 to fix the extrusion gear rack; the vertical movement of the screw 1601 is driven by the rotation of the extrusion eighth gear 1406, and the rotation is through the lateral seventh gear 1405, the forward rotation fifth gear 1403 or the reverse rotation sixth gear 1404 on the lateral swing frame 15, the lateral fourth gear 1402, the extrusion link 1401 below it, the conversion link 7 below it and the motor 1 below it movably connected; an eccentric hole is formed in the bottom of the barrel body 1201, the hole is sealed by a normally closed door leaf 1203, a rotating shaft 1202 is installed in the center of the bottom of the barrel and penetrates through the rotating shaft 1202 to be fixed, a stirring rod 11 is arranged at the upper portion of the barrel and is movably connected with the barrel, the bottom of the barrel is movably connected with a shaft tongue 804 below the stirring rod, and a third stirring gear 803 where the shaft tongue 804 is located, a second gear 802 on the side, a first conversion gear 801 on the side and a conversion link rod 7 on the central shaft of the barrel are movably connected with; the stopping of the stirring third gear 803 is realized by controlling the up-and-down movement of the movable bolt 602 through a torsion bar 601 below the third gear, and a spring is arranged in the middle of the movable bolt 602; an electromagnetic heating controller 2301 is arranged beside the barrel body 1201, a first heating coil 2302, a heating and stuffing filling switch 9 and a temperature control switch 10 are arranged below the barrel body 1201 and are fixedly arranged on a supporting frame 13, and a connecting pipe 5 is arranged below the normally closed door leaf 1203 and is movably connected with the normally closed door leaf; the material conveying cylinder 2401 penetrates into a supporting frame 13 at the bottom and is movably connected with the supporting frame; a vibration motor 2 is fixedly arranged on a support frame 13 below the material conveying cylinder 2401; materials in the barrel body 1201 are transmitted to the material conveying barrel 2401 through the connecting pipe 5; a second conveying screw rod 2402 is arranged in the conveying cylinder 2401, one end of the second conveying screw rod is fixedly connected with the discharging nozzle 2403, and a linkage shaft 4 is arranged beside the other end of the second conveying screw rod and is movably connected with the second conveying screw rod; the linkage shaft 4 is movably connected with the motor 1 below through the bevel gear 3 where the linkage shaft is positioned; the second heating coil 2303 is fixedly installed on the support frame 13 below the first heating coil 2302; a third heating coil 2304 is fixedly arranged beside the electromagnetic heating controller 2301, and the filling barrel 2101 is arranged in the center of the third heating coil 2304 and movably connected with the third heating coil 2304; a stuffing first screw rod 2103 is arranged in the stuffing cylinder 2101, a tenth stuffing injection gear 2102 is fixedly arranged at the top end of the stuffing cylinder 2101 and is movably connected with the ninth lateral gear 20 through a stuffing injection motor 22 at the bottom of the stuffing cylinder 2101, and the bottom of the stuffing cylinder 2101 is inserted into a groove at the top of a discharging nozzle 2403 at the lower part and is movably connected with the discharging nozzle 2403; the bottom of the whole device below the discharge nozzle 2403 is provided with a cutting device which is installed and fixed on a cutting frame 2502 through a steel wire 2501, one end of a swing arm 2504 is installed below the cutting frame 2502, the other end of the swing arm is hinged and supported freely, the free end penetrates through the cutting frame 2502 and is movably connected with the cutting frame 2502, a spring 2503 is installed on the free end, the other end of the spring 2503 is installed on a push-pull rod 2506 below the spring 2503, and the other end of the spring 2506 is movably connected with a cutting motor 2505 through the other end of.

Further, the stirring rod 11 is a bar, one end of which has a hole, and the size of the hole matches with the convex column on the upper part of the rotating shaft 1202.

Further, the connecting pipe 5 is arranged below the barrel body 1201 and is movably connected above the material conveying cylinder, the connecting pipe 5 is a square pipe, ear brackets are arranged on two sides of the outer wall of the top of the connecting pipe, the upper opening part is matched with the bottom hole of the barrel body 1201, and the lower opening part is matched with the side wall opening of the material conveying cylinder.

Further, the charging barrel is composed of a barrel body 1201, a rotating shaft 1202 and a normally closed door leaf 1203, the rotating shaft 1202 penetrates through and is installed and fixed in the center of the bottom of the barrel body 1201, and the normally closed door leaf 1203 is installed on two sides of a square hole in the bottom of the barrel body 1201; the barrel body 1201 is square and has no cover, the included angle of the inner side surface is a round angle, a round hole is arranged in the center of the barrel bottom, a square hole is arranged at the eccentric position, a handle is arranged on the front surface, and a water injection hole is arranged at the upper position; the rotating shaft 1202 is a round shaft, the upper part of the rotating shaft is provided with a convex column, the bottom of the rotating shaft is provided with a groove, the convex column is matched with the hole of the stirring rod 11 in size, and the groove at the bottom of the rotating shaft is matched with the shaft tongue 804 in size; the normally closed door leaf 1203 is provided with a fixed shaft on one side, two axial ends extend and are provided with springs, one side of the normally closed door leaf is provided with a bent shaft, and the shaft is used for touching the heating and stuffing filling switch 9 when rotating.

Further, the vertical squeezing mechanism is arranged above the barrel body 1201 and can vertically move up and down in the barrel body 1201; the vertical extrusion mechanism consists of an extrusion disc 19, a rod pad 1602 and a vertical rod, wherein the extrusion disc 19 is arranged below the rod pad 1602 and is movably connected with the rod pad, and the vertical rod is arranged at the upper part of the rod pad 1602 and is fixed with the rod pad; the side edge of the extrusion disc 19 is provided with a groove embedded sealing ring, the disc diameter is matched with the inner diameter of the barrel body, the bottom is provided with a groove matched with the stirring rod 11, and the back is provided with two rows of vertical opposite grooves matched with the two side edges of the rod pad 1602; the vertical rod piece is a screw 1601, the rod body is provided with threads, and four sliding surfaces are arranged along the length direction.

Further, the electric heater includes an electromagnetic heating controller 2301 and a heating coil, which are connected to each other; the heating coils comprise a first heating coil 2302, a second heating coil 2303 and a third heating coil 2304 which are all formed by winding metal copper wires; the first heating coil 2302 is fixedly installed on the support frame 13 below the barrel 1201 and arranged in a plane; the second heating coil 2303 is fixedly installed on the supporting frame 13 at the periphery of the feed delivery cylinder 2402 and is arranged in a spiral horizontal direction; the third heating coil 2304 is fixed to a support frame 13 around the stuffing cartridge 2101 and is arranged in a spiral vertical direction.

Further, the horizontal extrusion mechanism is composed of a material conveying cylinder 2401, a screw rod and a material discharging nozzle 2403, wherein the screw rod is arranged in the material conveying cylinder 2401 and is movably connected with the material conveying cylinder 2401; the discharge nozzle 2403 is fixedly connected with the end part of the material conveying cylinder 2401, and the screw rod is movably connected with the discharge nozzle 2403; one end of the material conveying cylinder 2401 is straight, the other end of the material conveying cylinder is provided with an annular baffle, and the side wall of the material conveying cylinder is provided with a square opening; the screw rod is a second screw rod 2402, one end of the screw rod is provided with a conical table, the other end of the screw rod is provided with a groove, the top of the boss of the linkage shaft 4 is matched, and the screw rod body is spiral; the feed discharge nozzle 2403 is cuboid, a side surface is provided with a hole, the bottom is provided with a hole and is communicated with the hole, the size of the side hole is matched with the diameter of the feed delivery cylinder 2401, the top of the side hole is provided with a flat groove, the side hole is matched with the bottom of the filling cylinder 2101, the bottom of the side hole is provided with a plurality of guide pipes, the number of the guide pipes is matched with the number of the.

Further, a cutting device is arranged below the discharging nozzle 2403, and the cutting device comprises a steel wire 2501, a cutting frame 2502, a swing arm 2504, an elastic piece, a push-pull rod 2506 and a cutting motor 2505; the steel wire 2501 is fixed on the cutting frame 2502, a swing arm 2504 is arranged below the cutting frame 2502, one end of the swing arm is hinged with the other end of the swing arm 2504, the free end of the swing arm 2504 penetrates through the cutting frame 2502 and is movably connected with the cutting frame 2502, an elastic piece is mounted on the free end of the swing arm 2504, the other end of the elastic piece is mounted on a push-pull rod 2506 below the elastic piece, the other end of the push-pull rod 2506 is movably connected with a cutting motor 2505, the cutting frame is h-shaped, and the elastic piece.

Further, the transmission components comprise a bevel gear 3, a linkage shaft 4, a conversion link 7, a conversion first gear 801, a second gear 802, a stirring third gear 803, a shaft tongue 804, an extrusion link 1401, a fourth gear 1402, a forward rotation fifth gear 1403, a reverse rotation sixth gear 1404, a seventh gear 1405, an extrusion eighth gear 1406, a ninth gear 20 and a stuffing filling tenth gear 2102; a linkage shaft 4 is arranged at the center of the bevel gear 3 and movably connected with the bevel gear; a conversion link rod 7 is arranged at the center of the first conversion gear 801 and movably connected with the first conversion gear; the second gear 802 is movably connected with the first gear 801 beside the conversion; the stirring third gear 803 is movably connected with the second gear 802 at the side thereof; the shaft tongue 804 is movably connected with the stirring third gear 803 at the center thereof; the extrusion link 1401 is movably connected with the conversion link 7 above the same; the fourth gear 1402 is fixed on the top of the extrusion link 1401; the forward rotation fifth gear 1403 is movably connected with the fourth gear 1402 beside the same; said counter-rotating sixth gear 1404 is operatively connected to fourth gear 1402 alongside it; the seventh gear 1405 is movably connected to the forward fifth gear 1403 and the reverse sixth gear 1404 beside the same; the pressing eighth gear 1406 is movably connected with the seventh gear 1405 at the side thereof; the ninth gear 20 is arranged beside the tenth stuffing injection gear 2102 and is movably connected with the tenth stuffing injection gear; the conversion link rod 7 is cylindrical, the bottom of the conversion link rod is expanded in a conical manner, the center of the bottom of the conversion link rod is provided with a hole which is matched with a motor shaft below the conversion link rod, the top of the conversion link rod is reduced in diameter, and two ears are arranged at the variable cross section; the linkage shaft 4 is in a square column shape, one end part of the linkage shaft is provided with an umbrella-shaped cap, the other end of the linkage shaft is sleeved with a straw-cap-shaped boss, the middle of the linkage shaft is opened by a spring, the top of the boss is matched with a groove of the second conveying screw rod 2402, and the tail part of the boss is sleeved with a groove of the shaft part and is movably connected with the shaft part; the first conversion gear 801 is provided with a hollow shaft which extends up and down, and the top of the upper shaft is provided with two saw teeth which are matched with the two ears on the upper part of the conversion link rod 7; the stirring third gear 803 has a hollow shaft extending up and down, a spring and a shaft tongue 804 are arranged in the center, the tongue part is exposed, and the side surface of the gear is provided with a hole which is matched with the movable bolt 602; the bottom of the extrusion link 1401 is hollow, a spring is arranged in the extrusion link 1401, two sawteeth are arranged at the bottom end of the extrusion link and are matched with ears on the upper portion of the conversion link 7, the shaft portion of the extrusion eighth gear 1406 is hollow and extends up and down, and the inner wall of the shaft is provided with threads and is matched with the threads of the screw 1601.

Further, the stuffing filling device is arranged above the discharging nozzle 2403 and consists of a stuffing barrel 2101, a stuffing filling first screw rod 2103 and a stuffing filling tenth gear 2102; the stuffing filling first screw rod 2103 is arranged in the stuffing barrel 2101 and is movably connected with the stuffing barrel 2101; a stuffing filling tenth gear 2102 is fixedly arranged at the top end of the stuffing barrel 2101 and is movably connected with a stuffing filling first spiral rod 2103; the stuffing barrel 2101 is a round barrel, the top end of the stuffing barrel 2101 is provided with an annular baffle, the side wall of the upper part of the stuffing barrel 2101 is opened, a hopper opening is arranged upwards, the variable cross section of the bottom of the stuffing barrel 2101 is flat, and a conical table is arranged at the center of the variable cross section; one end of the stuffing injection first screw rod 2103 is provided with a square convex column, the other end is provided with a conical groove, the groove part is matched with a conical table at the bottom of the stuffing cylinder 2101, and the rod body is spiral and is made into a grinding shape in the middle section; the tenth stuffing injection gear 2102 is fixed on a bearing, and a hole is formed in the center of the tenth stuffing injection gear and is matched with the convex column of the first stuffing injection screw rod 2103.

Due to the adoption of the structure, the multifunctional five-cereal vermicelli processing device extrudes and completely extrudes materials in the charging basket through the vertical extrusion mechanism for processing viscous and non-viscous materials, and heats the materials in the charging basket and the material conveying basket through the electric heater, so that the purposes of mechanical replacement of labor and one-time processing are realized, the food can be eaten without secondary cooking of a cooker, and time and labor are saved; through the combination with the stuffing filling device, stuffed food which can not be processed by the traditional process can be realized, so that the food is more diversified; through the combination with the cutting device, the food can be cut into various required lengths, so that the requirements of people are met; the device is simple to operate, safe and reliable, and convenient to disassemble and wash.

[ description of the drawings ]

The invention will be further explained with reference to the drawings and examples

FIG. 1 is a schematic view of the present invention

FIG. 2 is a schematic view taken along line A-A in FIG. 1

In the figure, 1, a motor, 2, a vibration motor, 3, a bevel gear, 4, a linkage shaft, 5, a connecting pipe, 601, a torsion bar, 602, a movable bolt, 7, a conversion link rod, 801, a conversion first gear, 802, a second gear, 803, a stirring third gear, 804, a shaft tongue, 9, a stuffing filling switch, 10, a temperature control switch, 11, a stirring rod, 1201, a barrel body, 1202, a rotating shaft, 1203, a normally closed door leaf, 13, a supporting frame, 1401, an extrusion link rod, 1402, a fourth gear, 1403, a forward rotation fifth gear, 1404, a reverse rotation sixth gear, 1405, a seventh gear, 1406, an extrusion eighth gear, 15, a swinging frame, 1601, a screw rod, 1602, a rod pad, 17, an extrusion gear frame, 1701, a spring stuffing fastener, 18, a microswitch, 19, an extrusion disc, 20, a ninth gear, 2101, a stuffing filling barrel, 2102, a tenth gear, 3, a first spiral rod, 22 and a stuffing filling motor 2103, 2301. the electromagnetic heating device comprises an electromagnetic heating controller, a first heating coil 2302, a first heating coil 2303, a second heating coil 2304, a third heating coil 2401, a material conveying cylinder 2402, a second conveying screw rod 2403, a material discharging nozzle 2501, a steel wire 2502, a cutting frame 2503, a spring 2504, a swing arm 2505, a cutting motor 2506 and a push-pull rod.

[ detailed description of the invention ]

Example 1

A multifunctional five-cereal vermicelli processing device comprises a motor 1, a vibration motor 2, a bevel gear 3, a linkage shaft 4, a connecting pipe 5, a torsion bar 601, a movable bolt 602, a conversion connecting rod 7, a first conversion gear 801, a second conversion gear 802, a stirring third gear 803, a shaft tongue 804, a heating and stuffing filling switch 9, a temperature control switch 10, a stirring rod 11, a barrel body 1201, a rotating shaft 1202, a normally closed door 1203, a support frame 13, an extrusion connecting rod 1401, a fourth gear 1402, a forward rotation fifth gear 1403, a reverse rotation sixth gear 1404, a seventh gear 1405, an extrusion eighth gear 1406, a swinging rack 15, a screw 1601, a rod pad 1602, an extrusion gear rack 17, a spring fastener 1701, a microswitch 18, an extrusion disc 19, a ninth gear 20, a stuffing barrel 2101, a stuffing filling tenth gear 2102, a stuffing filling first spiral rod 2103, a stuffing filling motor 22, an electromagnetic heating controller 2301, a first heating coil 2302, a second heating coil 2303, a stuffing filling motor 2303, a torsion bar 2303, a, The device comprises a third heating coil 2304, a material conveying cylinder 2401, a second conveying spiral rod 2402, a material discharging nozzle 2403, a steel wire 2501, a cutting frame 2502, a spring 2503, a swing arm 2504, a cutting motor 2505 and a push-pull rod 2506, and is characterized in that a supporting frame 13 is positioned in the middle of the whole device, a barrel body 1201 is placed in the supporting frame, an extrusion disc 19, a rod pad 1602 and a screw 1601 in an extrusion mechanism are arranged above the barrel body 1201, the extrusion disc 19 is movably connected with the rod pad 1602 above, the rod pad 1602 is installed and fixed at the bottom of the screw 1601, the screw 1601 is positioned on the central shaft of an extrusion eighth gear 1406, and the extrusion eighth gear 1406 is fixed in an extrusion gear rack 17 and movably connected with the extrusion gear rack; a spring fastener 1701 is arranged above the extrusion gear rack 17 to fix the extrusion gear rack; the vertical movement of the screw 1601 is driven by the rotation of the extrusion eighth gear 1406, and the rotation is through the lateral seventh gear 1405, the forward rotation fifth gear 1403 or the reverse rotation sixth gear 1404 on the lateral swing frame 15, the lateral fourth gear 1402, the extrusion link 1401 below it, the conversion link 7 below it and the motor 1 below it movably connected; an eccentric hole is formed in the bottom of the barrel body 1201, the hole is sealed by a normally closed door leaf 1203, a rotating shaft 1202 is installed in the center of the bottom of the barrel and penetrates through the rotating shaft 1202 to be fixed, a stirring rod 11 is arranged at the upper portion of the barrel and is movably connected with the barrel, the bottom of the barrel is movably connected with a shaft tongue 804 below the stirring rod, and a third stirring gear 803 where the shaft tongue 804 is located, a second gear 802 on the side, a first conversion gear 801 on the side and a conversion link rod 7 on the central shaft of the barrel are movably connected with; the stopping of the stirring third gear 803 is realized by controlling the up-and-down movement of the movable bolt 602 through a torsion bar 601 below the third gear, and a spring is arranged in the middle of the movable bolt 602; an electromagnetic heating controller 2301 is arranged beside the barrel body 1201, a first heating coil 2302, a heating and stuffing filling switch 9 and a temperature control switch 10 are arranged below the barrel body 1201 and are fixedly arranged on a supporting frame 13, and a connecting pipe 5 is arranged below the normally closed door leaf 1203 and is movably connected with the normally closed door leaf; the material conveying cylinder 2401 penetrates into a supporting frame 13 at the bottom and is movably connected with the supporting frame; a vibration motor 2 is fixedly arranged on a support frame 13 below the material conveying cylinder 2401; materials in the barrel body 1201 are transmitted to the material conveying barrel 2401 through the connecting pipe 5; a second conveying screw rod 2402 is arranged in the conveying cylinder 2401, one end of the second conveying screw rod is fixedly connected with the discharging nozzle 2403, and a linkage shaft 4 is arranged beside the other end of the second conveying screw rod and is movably connected with the second conveying screw rod; the linkage shaft 4 is movably connected with the motor 1 below through the bevel gear 3 where the linkage shaft is positioned; the second heating coil 2303 is fixedly installed on the support frame 13 below the first heating coil 2302; a third heating coil 2304 is fixedly arranged beside the electromagnetic heating controller 2301, and the filling barrel 2101 is arranged in the center of the third heating coil 2304 and movably connected with the third heating coil 2304; a stuffing first screw rod 2103 is arranged in the stuffing cylinder 2101, a tenth stuffing injection gear 2102 is fixedly arranged at the top end of the stuffing cylinder 2101 and is movably connected with the ninth lateral gear 20 through a stuffing injection motor 22 at the bottom of the stuffing cylinder 2101, and the bottom of the stuffing cylinder 2101 is inserted into a groove at the top of a discharging nozzle 2403 at the lower part and is movably connected with the discharging nozzle 2403; the bottom of the whole device below the discharge nozzle 2403 is provided with a cutting device which is installed and fixed on a cutting frame 2502 through a steel wire 2501, one end of a swing arm 2504 is installed below the cutting frame 2502, the other end of the swing arm is hinged and supported freely, the free end penetrates through the cutting frame 2502 and is movably connected with the cutting frame 2502, a spring 2503 is installed on the free end, the other end of the spring 2503 is installed on a push-pull rod 2506 below the spring 2503, and the other end of the spring 2506 is movably connected with a cutting motor 2505 through the other end of.

Preparing to pour the materials into the barrel 1201, placing the materials into the supporting frame 13, and placing a container containing water or cooked powder below the discharging nozzle 2403 to prevent cooked foods from being bonded with each other; starting the motor 1 to enable the bevel gear 3, the linkage shaft 4, the conversion link rod 7, the conversion first gear 801, the second gear 802, the stirring third gear 803 and the shaft tongue 804 to rotate, enabling the stirring rod 11 on the rotating shaft 1202 to rotate to stir the materials in the barrel body 1201, and injecting water into the hole in the front side of the barrel body 1201 when the materials need to be added with water; when the stirring rod 11 rotates, the electromagnetic heating controller 2301 can be simultaneously started, and the first heating coil 2302 is controlled to be electrified to heat the barrel 1201, so that the materials are stirred and heated at the same time; when the materials in the barrel body 1201 are mixed and reach a certain temperature, the temperature control switch 10 is automatically powered off, the first heating coil 2302 stops heating, and the motor 1 stops running; when the next step of operation is started, the motor 1 is started to rotate in a reverse mode, the vibration motor 2 is started, the torsion bar 601 is pulled anticlockwise to enable the movable bolt 602 to be sprung upwards, when the stirring third gear 803 rotates reversely, the movable bolt 602 is inserted into a hole in the side surface of the stirring third gear 803 to be locked, the shaft tongue 804, the rotating shaft 1202 and the stirring rod 11 are stopped to rotate, and the stirring rod 11 is positioned on the projection plane of the groove at the bottom of the extrusion disc 19; at this time, the second gear 802 and the conversion first gear 801 stop rotating, the conversion link 7 rotates reversely, the upper ear is disengaged from the top sawtooth of the conversion first gear 801, slides into the sawtooth at the bottom end of the extrusion link 1401, and pushes the fourth gear 1402, the forward rotation fifth gear 1403, the seventh gear 1405 and the extrusion eighth gear 1406 to rotate, so that the screw 1601, the rod pad 1602 and the extrusion disc 19 move downwards vertically and extrude the materials in the barrel 1201; when the conversion link rod 7 reversely rotates and rises, the expanded part at the bottom of the conversion link rod pushes the linkage shaft 4 to slide to the left side and extends into the groove of the second conveying spiral rod 2402 to rotate; when the extrusion disc 19 moves to the surface of the material and the material is pressed to generate a larger pressure, the normally closed door leaf 1203 at the bottom of the barrel body 1201 is extruded open, the material enters the connecting pipe 5 from the bottom hole, under the auxiliary vibration of the vibration motor 2, the material quickly slides into the material conveying cylinder 2401, the bending part of the shaft part of the normally closed door leaf 1203 touches the heating and stuffing injection switch 9, the second heating coil 2303 is electrified to heat the material conveying cylinder 2401 at a high temperature, and the second screw rod 2402 is conveyed to rotate, convey and extrude, so that the material is gradually cured and overflows from the bottom hole of the discharge nozzle 2403 at the other end of the material conveying cylinder 2401; when the extrusion disc 19 moves to the bottom of the barrel 1201, the stirring rod 11 enters a groove at the bottom of the extrusion disc; when the barrel body 1201 is moved to the bottom of the barrel body 1201, all the materials in the barrel body 1201 are discharged, the extrusion disc 19 moves downwards and is subjected to resistance of a support frame 13 at the bottom of the barrel body 1201, the downward movement is stopped, a great counter force is generated, the generated counter force is transmitted to the rod pad 1602, the screw 1601, the extrusion eighth gear 1406, the extrusion gear carrier 17 and the spring fastener 1701 by the extrusion disc 19, the spring fastener 1701 starts to be compressed after being subjected to great pressure, the extrusion gear carrier 17 moves upwards at the same time, the rear special-shaped link rod is pushed, the swinging frame 15 is pushed to move forwards, the forward rotating fifth gear 1403 moves forwards and is separated from the seventh gear 1405, the reverse rotating sixth gear 1404 moves forwards and is meshed with the seventh gear 1405 to rotate reversely, the extrusion gear carrier 17 is reset, and the extrusion eighth gear 1406, the screw 1601, the rod pad 1602 and the extrusion disc 19 move reversely and rapidly; the materials entering the connecting pipe 5 continuously fall into the material conveying cylinder 2401 until the materials are emptied; when the materials in the connecting pipe 5 are gradually exhausted, the normally closed door leaf 1203 loses the action of external force and is automatically closed under the action of springs on two sides of the shaft; when the extrusion disc 19 rises to the top of the barrel body 1201, the materials in the material delivery barrel 2401 are completely emptied, and the rod pad 1602 touches the micro switch 18 at the moment, so that the motor 1, the vibration motor 2 and the electromagnetic heating controller 2301 are powered off, and the operation is stopped; at this time, the work of stirring, extruding, heating, conveying, curing and discharging of the materials is finished.

When the food is processed and the equipment needs to be cleaned, the barrel body 1201 is slightly lifted and then horizontally moved out, the extrusion disc 19 is horizontally moved out, the connecting pipe 5 is vertically pulled out upwards, the material conveying cylinder 2401 provided with the material discharging nozzle 2403 and the second conveying screw rod 2402 is horizontally pulled out leftwards, and the components are detached and cleaned one by one.

Example 2

The multifunctional five-cereal vermicelli processing device comprises a charging basket, wherein the charging basket consists of a basket body 1201, a rotating shaft 1202 and normally closed door leaves 1203, and is characterized in that the rotating shaft 1202 penetrates through and is installed and fixed in the center of the bottom of the basket body 1201, and the normally closed door leaves 1203 are installed on two sides of a square hole in the bottom of the basket body 1201; the barrel body 1201 is square and has no cover, the included angle of the inner side surface is a round angle, a round hole is arranged in the center of the barrel bottom, a square hole is arranged at the eccentric position, a handle is arranged on the front surface, and a water injection hole is arranged at the upper position; the upper part of the rotating shaft 1202 is provided with a convex column, the bottom of the rotating shaft 1202 is provided with a groove, the convex column is matched with the hole of the stirring rod 11 in size, and the groove at the bottom is matched with the shaft tongue 804 in size; the normally closed door leaf 1203 is provided with a fixed shaft on one side, springs are arranged on two axial sides in an extending mode, one side of the normally closed door leaf is provided with a bent shaft, and the normally closed door leaf is used for touching the heating and stuffing filling switch 9 during rotation.

A stirring rod 11 is arranged on a rotating shaft 1202, a material to be processed is poured into a barrel body 1201, and the material is placed in a supporting frame 13; starting the motor 1, enabling the stirring rod 11 on the rotating shaft 1202 to stir the materials in the barrel body 1201, and simultaneously starting the electromagnetic heating controller 2301 to electrify so that the first heating coil 2302 heats the barrel body 1201 and the materials in the barrel; when the mixing is finished and the temperature is raised to a certain temperature, the temperature control switch 10 is powered off, and the mixing and heating work is stopped; starting a reverse rotation mode of the motor 1 to enable the extrusion disc 19 to vertically move downwards and extrude the materials in the barrel body 1201; when the extrusion disc 19 presses the materials to generate a large pressure, the normally closed door leaf 1203 is extruded, and the materials in the barrel body 1201 overflow from the bottom hole and enter the connecting pipe 5 below; when the extrusion plate 19 moves downwards to the bottom of the barrel, all the materials are discharged and enter the connecting pipe 5, and when the materials in the connecting pipe 5 are gradually discharged, the normally closed door leaf 1203 gradually resets under the action of the springs on two sides of the shaft after losing the extrusion of external force, so that the normally closed door leaf returns to a normally closed state.

Example 3

A multifunctional processing device for five-cereal vermicelli comprises a stirring rod 11 and is characterized in that the stirring rod 11 is in a strip shape, one end of the stirring rod is provided with a hole, and the size of the hole is matched with a convex column on the upper part of a rotating shaft 1202.

A stirring rod 11 is arranged on a convex column at the upper part of a rotating shaft 1202, and a material to be processed is poured into a barrel body 1201 and is placed in a supporting frame 13; starting the motor 1 to rotate the rotating shaft 1202 and drive the stirring rod 11 to stir the materials in the barrel 1201; when the stirring is finished, stopping the motor 1, pulling the torsion bar 601 anticlockwise to enable the movable bolt 601 to bounce upwards, and starting the reverse rotation mode of the motor 1 to enable the stirring third gear 803 to reverse; when the movable pin 601 is inserted into the side hole of the third stirring gear 803 and locked, the stirring rod 11 is stopped and positioned on the projection surface of the bottom groove of the extrusion disk 19.

Example 4

The multifunctional five-cereal vermicelli processing device comprises a vertical extrusion mechanism, is arranged above a barrel body 1201 and can vertically move up and down in the barrel body 1201; the vertical extrusion mechanism consists of an extrusion disc 19, a rod pad 1601 and a vertical rod, and is characterized in that the extrusion disc 19 is arranged below the rod pad 1602 and is movably connected with the rod pad, and the vertical rod is arranged above the rod pad 1601 and is fixed with the rod pad; the side edge of the extrusion disc 19 is provided with a groove embedded sealing ring, the disc diameter is matched with the inner diameter of the barrel body, the bottom of the extrusion disc is provided with a groove matched with the stirring rod 11, and the back of the extrusion disc is provided with two rows of vertically opposite grooves matched with the two side edges of the rod pad; the vertical rod piece is a screw 1601, the rod body is threaded, and four sliding surfaces are arranged along the length direction.

Starting the motor 1 to rotate reversely, so that the conversion link 7, the extrusion link 1401, the fourth gear 1402, the forward rotation fifth gear 1403, the seventh gear 1405 and the extrusion eighth gear 1406 in the transmission part rotate, drive the screw 1601, the rod pad 1602 and the extrusion disc 19 to vertically move downwards in the barrel body 1201 and extrude the materials in the barrel body 1201, and discharge the materials from the bottom of the barrel body 1201; when the extrusion disk 19 moves downwards to the bottom of the barrel 1201 and is subjected to a maximum support counterforce of the support frame 13, the extrusion disk 19 stops moving downwards and generates a maximum counterforce, and the counterforce is transmitted to the rod pad 1602, the screw 1601, the extrusion eighth gear 1406, the extrusion gear carrier 17 and the spring fastener 1701 from the extrusion disk 19, the spring fastener 1701 starts to compress after receiving a maximum pressure, the extrusion gear carrier 17 moves upwards at the same time and pushes the rear special-shaped link rod to push the swing frame 15 to move forwards, so that the forward rotation fifth gear 1403 moves forwards and is separated from the seventh gear 1405, the reverse rotation sixth gear 1404 moves forwards and is meshed with the seventh gear 1405 to rotate reversely quickly, the extrusion gear carrier 17 is reset, and the extrusion eighth gear 1406, the screw 1601, the rod pad 1602 and the extrusion disk 19 move reversely and quickly; when the squeezing disk 19 and the pad 1602 rise to the top of the barrel 1201, the motor 1 stops operating when the pad 1602 touches the micro switch 18, and the squeezing disk 19 returns to the position before operation.

Example 5

A multifunctional five-cereal vermicelli processing device comprises an electric heater, wherein the electric heater comprises an electromagnetic heating controller 2301 and a heating coil which are connected with each other; the heating coils comprise a first heating coil 2302, a second heating coil 2303 and a third heating coil 2304 which are all formed by winding metal copper wires; the first heating coil 2302 is installed and fixed on the support frame 13 below the barrel 1201 in a planar arrangement; the second heating coil 2303 is fixedly installed on the supporting frame 13 at the periphery of the feed delivery cylinder 2402 and is arranged in a spiral horizontal direction; the third heating coil 2304 is fixed to a support frame 13 around the stuffing cartridge 2101 and is arranged in a spiral vertical direction.

Starting the motor 1 and the electromagnetic heating controller 2301 to enable the stirring rod 11 to stir materials in the barrel body 1201, enabling the first heating coil 2303 to be electrified to heat the barrel body 1201 and the materials in the barrel body 1201 at a low temperature, and when stirring is completed and the materials are heated to a certain temperature, the temperature control switch 10 is powered off to stop stirring and heating; starting a reverse rotation mode of the motor 1 to enable the extrusion disc 19 to move downwards in the barrel body 1201; when the extrusion disc 19 is pressed on the surface of a material to generate large pressure, the normally closed door leaf 1203 at the bottom of the barrel body 1201 is extruded open, the bending part of the shaft part of the normally closed door leaf 1203 touches the heating and stuffing injection switch 9, so that the stuffing injection motor 22, the second heating coil 2303 and the third heating coil 2304 are electrified and started, the material conveying cylinder 2401 and the stuffing cylinder 2101 are heated at high temperature, and the material in the material conveying cylinder 2401 and the stuffing cylinder 2101 are gradually cooked; the cooked stuffing and materials overflow from the bottom hole of the discharging nozzle 2403 through the conveying and extrusion of the stuffing injecting first screw rod 2103 and the conveying second screw rod 2402; when the squeezing tray 19 moves to the bottom of the charging bucket 1201 and rapidly ascends to the top of the bucket body 1201, the rod pad 1602 touches the micro switch 18, and at the moment, the electromagnetic heating controller 2301, the stuffing filling motor 22 and the motor 1 are powered off, and the work is stopped.

Example 6

The multifunctional five-cereal vermicelli processing device comprises a horizontal extrusion mechanism, wherein the horizontal extrusion mechanism consists of a material conveying cylinder 2401, a screw rod and a discharge nozzle 2403, and is characterized in that the screw rod is arranged in the material conveying cylinder 2401 and is movably connected with the material conveying cylinder 2401; the discharge nozzle 2403 is fixedly connected with the end part of the material conveying cylinder 2401, and the screw rod is movably connected with the discharge nozzle 2403; one end of the material conveying cylinder 2401 is straight, the other end of the material conveying cylinder is provided with an annular baffle, and the side wall of the material conveying cylinder is provided with a square opening; the screw rod is a second screw rod 2402, one end of the screw rod is provided with a conical table, the other end of the screw rod is provided with a groove, the top of the boss of the linkage shaft 4 is matched, and the screw rod body is spiral; the feed discharge nozzle 2403 is cuboid, a side surface is provided with a hole, the bottom is provided with a hole and is communicated with the hole, the size of the side hole is matched with the diameter of the feed delivery cylinder 2401, the top of the side hole is provided with a flat groove, the side hole is matched with the bottom of the filling cylinder 2101, the bottom of the side hole is provided with a plurality of guide pipes, the number of the guide pipes is matched with the number of the.

After the materials in the barrel body 1201 are mixed and heated to a certain temperature, the temperature control switch 10 is powered off to stop working; at this time, the filling barrel 2101 provided with the first screw rod 2103 for filling is vertically inserted into the center of the third heating coil 2304, and the bottom end is inserted into a groove at the top of the discharging nozzle 2403; filling stuffing is filled in the hopper, and the motor 1 is started to rotate reversely; when the extrusion disc 19 moves downwards to the surface of the material in the barrel body 1201 and large pressure is generated, the normally closed door leaf 1203 at the bottom of the barrel body 1201 is extruded open, the bent part of the shaft touches the heating and stuffing injection switch 9, so that the stuffing injection motor 22 is started, the electromagnetic heating controller 2301 is electrified to start the second heating coil 2303 and the third heating coil 2304, and the first screw rod 2103 in the stuffing barrel 2101 rotates to convey, extrude and heat the material and overflow from the bottom of the guide pipe of the discharge nozzle 2403; materials overflowing from the material barrel 1201 enter the material conveying barrel 2401 through the connecting pipe 5, are conveyed and extruded by the rotation of the second screw rod 2402, are heated and cured by the second heating coil 2303, overflow from the hole at the bottom of the discharging nozzle 2403, and wrap stuffing overflowing from the bottom of the guide pipe; when the squeezing tray 19 moves to the bottom of the barrel and returns to the top of the barrel 1201, the material in the barrel 1201 is emptied, the rod pad 1602 touches the micro switch 18, the motor 1 and the electromagnetic heating controller 2301 are powered off, and the work is stopped.

Example 7

Multifunctional five cereals bean noodles processingequipment still includes connecting tube 5, establishes in staving 1201 below, and above the feed delivery section of thick bamboo, is swing joint, connecting tube 5 is square pipe, and top outer wall both sides are equipped with the ear bracket, and upper port portion and staving 1201 bottom hole phase-match, lower port portion and feed delivery section of thick bamboo lateral wall opening phase-match.

After materials in the barrel body 1201 are mixed and heated; starting the motor 1 to reversely rotate and vibrate the motor 2, so that the extrusion disc 19 vertically moves downwards and extrudes the materials in the barrel body 1201; when the extrusion disc 19 presses the material to generate a large pressure, the normally closed door leaf 1203 is extruded, the material in the barrel body 1201 overflows from the bottom hole and enters the connecting pipe 5 below, and under the auxiliary vibration of the vibration motor 2, the material quickly enters the material conveying barrel 2401 below; when the extrusion disc 19 moves downwards to the bottom of the barrel, all the materials in the barrel body 1201 are discharged and enter the connecting pipe 5; the materials in the connecting pipe 5 are gradually emptied under the auxiliary vibration of the vibration motor 2, and the normally closed door leaf 1203 gradually resets under the action of the springs on the two sides of the shaft after losing the extrusion of the external force until the materials in the connecting pipe are completely emptied.

Example 8

The multifunctional five-cereal vermicelli processing device also comprises a stuffing injector which is arranged above the discharging nozzle 2403, the stuffing injector consists of a stuffing cylinder 2101, a stuffing injection first screw rod 2103 and a gear, and the five-cereal vermicelli processing device is characterized in that the stuffing cylinder 2101 is arranged above the discharging nozzle 2403 and is movably connected with the discharging nozzle; the stuffing filling first screw rod 2103 is arranged in the stuffing barrel 2101 and is movably connected with the stuffing barrel 2101; a stuffing filling tenth gear 2102 is fixedly arranged at the top end of the stuffing barrel 2101 and is movably connected with a stuffing filling first spiral rod 2103; the stuffing barrel 2101 is a round barrel, the top end of the stuffing barrel 2101 is provided with an annular baffle, the side wall of the upper part of the stuffing barrel 2101 is opened, a hopper opening is arranged upwards, the variable cross section of the bottom of the stuffing barrel 2101 is flat, and a conical table is arranged at the center of the variable cross section; one end of the stuffing injection first screw rod 2103 is provided with a square convex column, the other end is provided with a conical groove, the groove part is matched with a conical table at the bottom of the stuffing cylinder 2101, and the rod body is spiral and is made into a grinding shape in the middle section; the tenth stuffing injection gear 2102 is fixed on a bearing, and a hole is formed in the center of the tenth stuffing injection gear and is matched with the convex column of the first stuffing injection screw rod 2103.

Preparing to pour the materials into the barrel 1201, placing the materials into the supporting frame 13, and placing a container containing water or cooked powder below the discharging nozzle 2403 to prevent cooked foods from being bonded with each other; starting the motor 1 to enable the bevel gear 3, the linkage shaft 4, the conversion link rod 7, the conversion first gear 801, the second gear 802, the stirring third gear 803 and the shaft tongue 804 to rotate, enabling the stirring rod 11 on the rotating shaft 1202 to rotate to stir the materials in the barrel body 1201, and injecting water into the hole in the front side of the barrel body 1201 when the materials need to be added with water; when the stirring rod 11 rotates, the electromagnetic heating controller 2301 can be simultaneously started, and the first heating coil 2302 is controlled to be electrified to heat the barrel 1201, so that the materials are stirred and heated at the same time; when the materials in the barrel body 1201 are mixed and reach a certain temperature, the temperature control switch 10 is automatically powered off, the first heating coil 2302 stops heating, and the motor 1 stops running; when the next step is carried out, a stuffing barrel 2101 provided with a first screw rod 2103 for stuffing injection is vertically inserted into the center of a third heating coil 2304, the bottom of the stuffing barrel is inserted into a groove at the top of a discharging nozzle 2403, and stuffing is filled into the hopper; starting a reverse rotation mode of the motor 1 and the vibration motor 2, pulling the torsion bar 601 anticlockwise to enable the movable bolt 602 to be upwards bounced, inserting the movable bolt 602 into a hole in the side surface of the stirring third gear 803 to be locked when the stirring third gear 803 reverses, stopping the rotation of the shaft tongue 804, the rotating shaft 1202 and the stirring rod 11, and positioning the stirring rod 11 on a projection plane of a groove at the bottom of the extrusion disc 19; at this time, the second gear 802 and the conversion first gear 801 stop rotating, the conversion link 7 rotates reversely, the upper ear is disengaged from the top sawtooth of the conversion first gear 801, slides into the sawtooth at the bottom end of the extrusion link 1401, and pushes the fourth gear 1402, the forward rotation fifth gear 1403, the seventh gear 1405 and the extrusion eighth gear 1406 to rotate, so that the screw 1601, the rod pad 1602 and the extrusion disc 19 move downwards vertically and extrude the materials in the barrel 1201; when the conversion link rod 7 reversely rotates and rises, the expanded part at the bottom thereof pushes the linkage shaft 4 to slide to the left side and extends into the groove of the second conveying screw rod 2402 to rotate; when the extrusion disc 19 moves to the surface of the material and the material is pressed to generate larger pressure, the normally closed door leaf 1203 at the bottom of the barrel body 1201 is extruded open, the bending part of the shaft part touches the heating and stuffing injection switch 9, so that the stuffing injection motor 22 and the electromagnetic heating controller 2301 control the second heating coil 2303 and the third heating coil 2304 to be electrified and started, and the stuffing in the stuffing barrel 2101 is rotated, ground and extruded by the first screw rod 2103 and heated at high temperature by the third heating coil 2304 and overflows from the bottom of the guide pipe of the discharge nozzle 2403; the materials in the barrel body 1201 overflow from the bottom hole, enter the connecting pipe 5 and rapidly slide into the material conveying cylinder 2401 under the auxiliary vibration of the vibration motor 2; the second heating coil 2303 heats the material conveying cylinder 2401 at a high temperature, conveys the second screw rod 2402 to carry out rotary conveying and extrusion, gradually cooks the material, overflows from a hole at the bottom of the discharging nozzle 2403 at the other end of the material conveying cylinder 2401, and wraps stuffing overflowing from the bottom of the guide pipe; when the extrusion disk 19 moves to the bottom of the barrel 1201, the stirring rod 11 enters the bottom groove thereof, when the materials in the barrel body 1201 are completely discharged after moving to the bottom of the barrel body 1201, the extrusion disk 19 moves downwards and is resisted by the supporting frame 13 at the bottom of the barrel body 1201, the downward movement is stopped, a great counter force is generated, while the reaction force is transmitted from the pressing disk 19 to the rod pad 1602, the screw 1601, the pressing eighth gear 1406, the pressing gear holder 17, and the spring fastener 1701, compression begins after the spring fastener 1701 is subjected to extreme pressure, while the compression carrier 17 moves up, and pushes the rear special-shaped link rod to push the swing frame 15 to move forward, so that the forward rotation fifth gear 1403 moves forward and is separated from the seventh gear 1405, the reverse rotation sixth gear 1404 moves forward and engages with the seventh gear 1405 to make it rotate reversely rapidly, so that the extrusion gear rack 17 is reset, and the eighth gear 1406, the screw 1601, the rod pad 1602 and the extrusion disk 19 move rapidly in the reverse direction; the materials entering the connecting pipe 5 continuously fall into the material conveying cylinder 2401 until the materials are emptied; when the materials in the connecting pipe 5 are gradually exhausted, the normally closed door leaf 1203 loses the action of external force and is automatically closed under the action of springs on two sides of the shaft; when the extrusion disc 19 rises to the top of the barrel body 1201, the materials in the material delivery barrel 2401 are completely emptied, and the rod pad 1602 touches the micro switch 18 at the moment, so that the motor 1, the vibration motor 2, the stuffing injection motor 22 and the electromagnetic heating controller 2301 are powered off and stop running; at the moment, the work of stirring, extruding, heating, conveying, filling, curing and discharging of the materials is finished;

example 9

The multifunctional five-cereal vermicelli processing device further comprises a cutting device, wherein the lower portion of the discharging nozzle 2403 is arranged, the cutting device comprises a steel wire 2501, a cutting frame 2502, a swing arm 2504, an elastic piece, a push-pull rod 2506 and a cutting motor 2505, the cutting device is arranged below the discharging nozzle 2403, and the bottom of the whole device is characterized in that the steel wire 2501 is fixed on the cutting frame 2502, the lower portion of the cutting frame 2502 is provided with the swing arm 2504, one end of the swing arm 2504 is hinged to the other end of the swing arm 2504 and free, the free end penetrates through the cutting frame 2502 and is movably connected with the cutting frame 2502, the free end of the swing arm 2504 is provided with the elastic piece, the other end of the elastic piece is arranged on the push-pull rod 2506 below the elastic piece, the other end of the push-pull rod.

When the food after stirring, extrusion, heating, conveying, stuffing filling and curing overflows from the hole at the bottom of the discharging nozzle 2403; the cutting motor 2505 at the bottom of the whole device is started, the push-pull rod 2506 moves left and right, the spring 2503 is driven to move left and right, the free end of the swing arm 2504 swings left and right, the cutting frame 2502 is pushed to swing left and right, the steel wire 2501 fixed on the cutting frame 2502 swings left and right, and food falling from the discharge nozzle 2403 is cut.

After food processing is finished, when equipment needs to be cleaned, a filling barrel 2101 provided with a tenth filling gear 2102 and a first filling screw rod 2103 is vertically pulled out upwards, a barrel body 1201 is slightly lifted and then horizontally moved out, an extrusion disc 19 is horizontally moved out, a connecting pipe 5 is vertically pulled out upwards, a material conveying barrel 2401 provided with a discharging nozzle 2403 and a second conveying screw rod 2402 is horizontally pulled out leftwards, and the components are disassembled and washed one by one.

It will be apparent to those skilled in the art that variations, modifications, substitutions and variations can be made in the embodiments without departing from the principles and spirit of the invention, as illustrated in figures a-a, in light of the teachings of the present invention.

Claims (10)

1. The multifunctional five-cereal vermicelli processing device comprises a motor, a supporting frame, a charging basket, a transmission component, a stirring rod, a material conveying barrel in a horizontal extrusion mechanism, a screw rod and a discharge nozzle, and is characterized in that the device is provided with a vertical extrusion mechanism and an electric heater, the charging basket is placed in the supporting frame, the vertical extrusion mechanism is arranged above the charging basket and can vertically move in the charging basket, and the electric heater is fixed on the supporting frame; the vertical extrusion mechanism is composed of an extrusion disc, a rod pad and a vertical rod piece, the extrusion disc is arranged at the bottom of the rod pad and is movably connected with the rod pad, the rod pad is fixedly arranged at the bottom of the vertical rod piece, and the electric heater comprises a heating coil and is fixedly arranged on the supporting frame.

2. The multi-functional five-cereal vermicelli processing apparatus as claimed in claim 1, wherein the charging basket has no lid, and the bottom center of the barrel has a rotation axis, and the eccentric position has an opening and is provided with a normally closed door leaf for blocking.

3. The multi-functional five-cereal vermicelli processing apparatus as claimed in claim 1, wherein the extrusion disk has a sealing ring at its side to match the inner diameter of the charging basket, a groove at its bottom to match the stirring rod, and a connecting groove at its back to match the connecting portion of the rod pad.

4. The multi-functional five-cereal vermicelli processing apparatus of claim 1 wherein the vertical rod member comprises a threaded rod having a screw thread with at least two slip planes along its length.

5. The multifunctional five-cereal vermicelli processing apparatus as claimed in claim 1, wherein said heating coil comprises a first heating coil and a second heating coil which are fixedly mounted on a support frame under the hopper and a support frame on the outer periphery of the feed delivery cylinder, respectively, said heating coils being made of metal wire.

6. The multifunctional five-cereal vermicelli processing device as claimed in claim 1, wherein the discharge nozzle has a side hole and a bottom hole and is connected, the side hole is matched with the diameter of the feed delivery cylinder, the top of the discharge nozzle is provided with a groove, and the bottom of the discharge nozzle is provided with a plurality of guide tubes and extends into the bottom hole.

7. The multi-functional five-cereal vermicelli processing apparatus as claimed in claim 1, further comprising a connecting tube disposed below the charging basket and above the feeding barrel and movably connected thereto, wherein the connecting tube has an ear bracket on the outer wall of the top portion, the upper port portion is matched with the bottom hole of the charging basket, and the lower port portion is matched with the opening of the side wall of the feeding barrel.

8. The multifunctional five-cereal vermicelli processing device according to claim 1, further comprising a filling injector arranged above the discharging nozzle, wherein the filling injector is composed of a filling cylinder and a screw rod, the screw rod is arranged in the filling cylinder and is movably connected with the filling cylinder, and the screw rod is a screw rod containing a rod body and containing a grinding shape.

9. The multifunctional five-cereal vermicelli processing device as claimed in claim 8, wherein said heating coil is a third heating coil mounted on a supporting frame fixed to the outer periphery of the stuffing cylinder.

10. The multifunctional five-cereal vermicelli processing device according to claim 1, 7 or 8, further comprising a cutting device disposed below the discharge nozzle, wherein the cutting device comprises a steel wire, a cutting frame, a swing arm, an elastic member, a push-pull rod and a cutting motor, the steel wire is fixedly mounted on the cutting frame, the swing arm is disposed below the cutting frame, one end of the swing arm is hinged to the other end of the swing arm, the free end of the swing arm penetrates through the cutting frame and is movably connected with the cutting frame, the elastic member is mounted on the free end of the swing arm, the other end of the elastic member is mounted on the push-pull rod below the elastic member and is movably connected with the cutting motor through the other.

Images