CN111387231A

CN111387231A - Food frying processing equipment

Info

Publication number: CN111387231A
Application number: CN202010428413.5A
Authority: CN
Inventors: 邱永生
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2020-07-10

Abstract

The invention relates to a frying processing device, in particular to a food frying processing device which comprises a dough processing mechanism, a conveying mechanism and a frying mechanism, wherein the dough processing mechanism can extrude dough, the dough processing mechanism can perform segmented cutting processing on the dough in the extruding process, the dough processing mechanism can smoothly convey the segmented dough to a frying box, the dough processing mechanism can perform linkage frying processing, the conveying mechanism is connected with the frying mechanism, and the frying mechanism is connected with the dough processing mechanism.

Description

Food frying processing equipment

Technical Field

The invention relates to a frying processing device, in particular to a food frying processing device.

Background

In food processing, the fried mode of food is very common, and in traditional fried food preparation of flour class processing, often can utilize multichannel process to extrude, segmentation, fry the dough, this needs a plurality of equipment to come the cooperative operation to accomplish, utilizes a plurality of driving motor to realize extrusion, segmentation, fry, and transfer efficiency is slow, and equipment area is big, so designed this kind of food fried processing equipment.

Disclosure of Invention

The invention mainly solves the technical problem of providing food frying processing equipment, which can extrude dough, can cut the dough in a segmentation way in the extrusion process, can smoothly convey the segmented dough to a frying box, and can carry out linkage frying processing.

In order to solve the technical problem, the invention relates to a frying processing device, and particularly relates to a food frying processing device which comprises a dough processing mechanism, a conveying mechanism and a frying mechanism, wherein the dough processing mechanism can extrude dough, the dough processing mechanism can perform segmented cutting processing on the dough in the extruding process, the segmented dough can be smoothly conveyed to a frying box by the frying mechanism, and the frying mechanism can perform linkage frying processing.

The dough processing mechanism is connected with the conveying mechanism, the conveying mechanism is connected with the frying mechanism, and the frying mechanism is connected with the dough processing mechanism.

As a further optimization of the technical scheme, the dough processing mechanism of the food frying processing equipment comprises a base, a supporting seat, a sliding groove, a linkage cutting mechanism, a side sliding groove, a side box body, a step groove, an extrusion opening, a middle box body, an extrusion cavity, an extrusion mechanism, a connecting seat, a side sliding rod, a limiting sliding rod, a toothed plate, a step rod, a gear with a shaft and an inner step sliding groove, wherein the base is connected with the supporting seat, the sliding groove is arranged on the supporting seat and is in sliding connection with the linkage cutting mechanism, the linkage cutting mechanism is in sliding connection with the side sliding groove, the side sliding groove is arranged on the supporting seat, the side box body is connected with the middle box body, the step groove is arranged on the side box body, the extrusion opening is arranged on the side box body, the extrusion cavity is arranged on the middle box body and is communicated with the extrusion opening, the linkage cutting mechanism is in sliding connection with the, the connecting seat is connected with the side sliding rod, the limit sliding rod is connected with the connecting seat, the side sliding rod is connected with the toothed plate, the limit sliding rod is connected with the toothed plate, the toothed plate is connected with the stepped rod, the shaft gear is connected with the supporting seat in a bearing mode, the shaft gear is meshed with the linkage cutting mechanism, the inner stepped sliding groove is arranged on the middle box body, and the inner stepped sliding groove is in sliding connection with the extrusion mechanism; the linkage cutting mechanism comprises a cross sliding block with a rack, a hinge seat, a hinge arm I, a stepped sliding seat I and a scraper with a plate, wherein the cross sliding block with the rack is connected with the hinge seat, the hinge seat is hinged with the hinge arm I, the hinge arm I is hinged with the stepped sliding seat I, the stepped sliding seat I is connected with the scraper with the plate, the scraper with the plate is contacted with the side box body, the stepped groove is connected with the stepped sliding seat I in a sliding manner, the cross sliding block with the rack is meshed with a gear with a shaft, the cross sliding block with the rack is connected with a sliding groove in a sliding manner, and the cross sliding block with the rack is connected; the extrusion mechanism comprises a linkage hinge rod, a hinge seat A, two side rack seats, a square column, a spring A, a hydraulic cylinder seat, a middle movable round seat, a connecting square column, a hydraulic cylinder, a hydraulic rod, a lower pressing seat and an inner weight reduction cavity, wherein the linkage hinge rod is hinged with the connecting seat, the linkage hinge rod is hinged with the hinge seat A, the hinge seat A is connected with the two side rack seats, the two side rack seats are connected with the square column, the spring A is sleeved on the square column, the square column is connected with a middle box body in a sliding manner, the square column is connected with the middle movable round seat, the middle movable round seat is connected with an inner stepped sliding groove in a sliding manner, the spring A is arranged in the inner stepped sliding groove and abuts against the middle movable round seat and the middle box body, the middle movable round seat is connected with the connecting square column, the connecting square column is connected with the inner stepped sliding groove in a sliding manner, the connecting square column is connected with the lower pressing seat, the hydraulic cylinder seat is connected with, the hydraulic cylinder is connected with a hydraulic rod, and the hydraulic rod is connected with the lower pressing seat.

As a further optimization of the technical scheme, the conveying mechanism of the food frying processing equipment comprises a base, an underframe, a conveying frame with a bearing seat, a roller with a shaft at the tail part, a roller with a driven shaft, a conveying belt, a roller with a shaft at the head part, a coupling, a motor, a discharging inclined seat, a spring, a stepped slide rod I and a stepped hole I, wherein the base is connected with the base, the base is connected with the underframe, the underframe is connected with the conveying frame with the bearing seat, the conveying frame with the bearing seat is connected with the roller with the shaft at the tail part in a bearing way, the conveying frame with the bearing seat is connected with the roller with the driven shaft in a bearing way, the conveying belt is in friction connection with the roller with the shaft at the tail part, the roller with the driven shaft is in friction connection with the conveying belt, the conveying belt is in friction connection with the roller with the shaft at the head part, the roller with the shaft is connected with, the motor links to each other with taking the bearing frame carriage, and the oblique seat of unloading links to each other with ladder slide bar I, ladder slide bar I and shoulder hole I sliding connection, and shoulder hole I sets up on taking the bearing frame carriage, and the spring housing is on ladder slide bar I, and the spring both ends are supported respectively on oblique seat of unloading, take the bearing frame carriage.

As a further optimization of the technical scheme, the frying mechanism of the food frying processing equipment comprises a frying box seat, a frying box, a bearing seat I, a belt gear, a bent arm support, a limiting sliding hole I, a limiting sliding hole II, a limiting sliding hole III and a grooved blade, wherein the frying box seat is connected with a base, the frying box seat is connected with the frying box, the bearing seat I is arranged on the frying box, the bearing seat I is connected with the belt gear in a bearing mode, the belt gear is connected with the grooved blade, the bent arm support is connected with the frying box, the bent arm support is provided with the limiting sliding hole I, the limiting sliding hole I is connected with a stepped rod in a sliding mode, the limiting sliding hole II is arranged on the frying box, the limiting sliding hole III is arranged on the frying box, the limiting sliding hole II is connected with the side sliding rod in a sliding mode, the limiting sliding rod is connected with the limiting sliding hole III in a sliding mode, and a toothed plate is meshed with the belt gear.

As a further optimization of the technical scheme, when the rack seats on the two sides of the food frying processing equipment move downwards to the limit position, the toothed plate drives the toothed wheel to rotate so that the grooved vanes rotate to the limit position on one side of the frying tank.

As a further optimization of the technical scheme, the heating plate is arranged on the bottom plate of the frying tank of the food frying processing equipment.

The food frying processing equipment has the beneficial effects that:

according to the food frying processing equipment, the dough can be extruded by the equipment, the dough can be cut in a segmented manner by the equipment in the extruding process, the segmented dough can be smoothly conveyed to the frying box by the equipment, and the equipment can be used for linkage frying processing.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a food frying processing device in the invention.

Fig. 2 is a schematic structural diagram of a food frying processing device of the invention.

Fig. 3 is a schematic structural diagram three of a food frying processing device of the present invention.

Fig. 4 is a schematic structural view of a dough handling mechanism 1 of a food frying apparatus according to the present invention.

Fig. 5 is a schematic structural view of a dough handling mechanism 1 of a food frying apparatus according to the present invention.

Fig. 6 is a schematic structural view of a dough handling mechanism 1 of a food frying apparatus according to the present invention.

Fig. 7 is a schematic structural view of a dough handling mechanism 1 of a food frying apparatus according to the present invention.

Fig. 8 is a schematic structural view of the linkage cutting mechanism 1-4 of the food frying processing device of the invention.

Fig. 9 is a schematic structural view of the pressing mechanism 1-11 of the food frying apparatus according to the present invention.

Fig. 10 is a first structural schematic diagram of the conveying mechanism 2 of the food frying processing device.

Fig. 11 is a second structural schematic diagram of the conveying mechanism 2 of the food frying processing device of the invention.

Fig. 12 is a first structural schematic diagram of a frying mechanism 3 of the food frying processing device of the invention.

Fig. 13 is a second structural schematic diagram of a frying mechanism 3 of the food frying processing device of the present invention.

Fig. 14 is a third schematic structural diagram of a frying mechanism 3 of the food frying processing device of the present invention.

Fig. 15 is a fourth schematic structural diagram of a frying mechanism 3 of the food frying processing device of the present invention.

In the figure: a dough processing mechanism 1; a base 1-1; 1-2 parts of a supporting seat; 1-3 of a chute; a linkage cutting mechanism 1-4; 1-4-1 of a cross slide block with a rack; a hinged seat 1-4-2; articulated arm I1-4-3; a step sliding seat I1-4-4; 1-4-5 of a scraper with a plate; 1-5 of a side chute; 1-6 of a side box body; 1-7 of a stepped groove; 1-8 parts of an extrusion opening; 1-9 parts of a middle box body; 1-10 parts of an extrusion cavity; 1-11 parts of an extrusion mechanism; linkage hinge rod 1-11-1; the hinge seat A1-11-2; 1-11-3 of rack seats at two sides; 1-11-4 of square column; spring A1-11-5; 1-11-6 parts of a hydraulic cylinder seat; 1-11-7 of a middle movable round seat; connecting the square columns 1-11-8; 1-11-9 of a hydraulic cylinder; 1-11-10 parts of a hydraulic rod; 1-11-11 of a pressing seat; 1-11-12 of inner weight-reducing cavity; connecting seats 1-12; side sliding rods 1-13; 1-14 parts of a limiting slide bar; toothed plates 1-15; step bars 1-16; gears with shafts 1-17; 1-18 of inner ladder chutes; a conveying mechanism 2; a base 2-1; a chassis 2-2; a conveying frame 2-3 with a bearing seat; a tail belt shaft roller 2-4; driven belt shaft rollers 2-5; 2-6 parts of a conveying belt; a roller 2-7 with a shaft at the head; 2-8 of a coupler; 2-9 of a motor; 2-10 of a discharging inclined seat; 2-11 parts of a spring; a step slide bar I2-12; a stepped hole I2-13; a frying mechanism 3; 3-1 parts of a frying box seat; 3-2 of a frying box; bearing seat I3-3; 3-4 of a belt gear; 3-5 of bent arm support; a limiting slide hole I3-6; a limiting slide hole II 3-7; a limiting slide hole III 3-8; grooved vanes 3-9.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present invention relates to a frying apparatus, and more specifically, to a food frying apparatus including a dough processing mechanism 1, a conveying mechanism 2, and a frying mechanism 3, the apparatus being capable of extruding dough, the apparatus being capable of performing a step-by-step cutting process on the dough during the extrusion process, the apparatus being capable of smoothly conveying the step-by-step dough to a frying tank, and the apparatus being capable of performing a linkage frying process.

Dough processing mechanism 1 link to each other with conveying mechanism 2, conveying mechanism 2 links to each other with deep-fry mechanism 3, deep-fry mechanism 3 links to each other with dough processing mechanism 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, where the dough processing mechanism 1 includes a base 1-1, a support seat 1-2, a chute 1-3, a linkage cutting mechanism 1-4, a side chute 1-5, a side box 1-6, a step chute 1-7, an extrusion port 1-8, a middle box 1-9, an extrusion chamber 1-10, an extrusion mechanism 1-11, a connection seat 1-12, a side chute 1-13, a limit slide bar 1-14, a toothed plate 1-15, a step bar 1-16, a belt shaft gear 1-17, and an inner step chute 1-18, the base 1-1 is connected to the support seat 1-2, the supporting seat 1-2 is provided with a chute 1-3, the chute 1-3 is connected with a linkage cutting mechanism 1-4 in a sliding way, the linkage cutting mechanism 1-4 is connected with a side chute 1-5 in a sliding way, the side chute 1-5 is arranged on the supporting seat 1-2, a side box body 1-6 is connected with a middle box body 1-9, a step groove 1-7 is arranged on the side box body 1-6, an extrusion opening 1-8 is arranged on the side box body 1-6, an extrusion cavity 1-10 is arranged on the middle box body 1-9, the extrusion cavity 1-10 is communicated with the extrusion opening 1-8, the linkage cutting mechanism 1-4 is connected with the step groove 1-7 in a sliding way, an extrusion mechanism 1-11 is connected with the middle box body 1-9, and the extrusion mechanism 1-11 is hinged with a, the connecting seat 1-12 is connected with a side sliding rod 1-13, a limiting sliding rod 1-14 is connected with the connecting seat 1-12, the side sliding rod 1-13 is connected with a toothed plate 1-15, the limiting sliding rod 1-14 is connected with the toothed plate 1-15, the toothed plate 1-15 is connected with a step rod 1-16, a belt shaft gear 1-17 is connected with a supporting seat 1-2 in a bearing mode, the belt shaft gear 1-17 is meshed with a linkage cutting mechanism 1-4, an inner step sliding chute 1-18 is arranged on a middle box body 1-9, and the inner step sliding chute 1-18 is connected with an extrusion mechanism 1-11 in a sliding mode; the linkage cutting mechanism 1-4 comprises a cross sliding block with a rack 1-4-1, a hinged seat 1-4-2, a hinged arm I1-4-3, a step sliding seat I1-4-4 and a belt plate scraper 1-4-5, the cross sliding block with the rack 1-4-1 is connected with the hinged seat 1-4-2, the hinged seat 1-4-2 is hinged with the hinged arm I1-4-3, the hinged arm I1-4-3 is hinged with the step sliding seat I1-4-4, the step sliding seat I1-4-4 is connected with the belt plate scraper 1-4-5, the belt plate scraper 1-4-5 is contacted with a side box body 1-6, a step groove 1-7 is connected with the step sliding seat I1-4-4 in a sliding way, the cross sliding block 1-4-1 with the rack is meshed with the gear 1-17 with the shaft, the cross sliding block 1-4-1 with the rack is connected with the sliding groove 1-3 in a sliding manner, and the cross sliding block 1-4-1 with the rack is connected with the side sliding groove 1-5 in a sliding manner; the extrusion mechanism 1-11 comprises a linkage hinge rod 1-11-1, a hinge seat A1-11-2, rack seats on two sides 1-11-3, a square column 1-11-4, a spring A1-11-5, a hydraulic cylinder seat 1-11-6, a middle movable round seat 1-11-7, a connecting square column 1-11-8, a hydraulic cylinder 1-11-9, a hydraulic rod 1-11-10, a lower pressing seat 1-11-11 and an inner weight reduction cavity 1-11-12, the linkage hinge rod 1-11-1 is hinged with a connecting seat 1-12, the linkage hinge rod 1-11-1 is hinged with the hinge seat A1-11-2, the hinge seat A1-11-2 is connected with the rack seats on two sides 1-11-3, the rack seats 1-11-3 at two sides are connected with the square column 1-11-4, the spring A1-11-5 is sleeved on the square column 1-11-4, the square column 1-11-4 is connected with the middle box body 1-9 in a sliding way, the square column 1-11-4 is connected with the middle movable round seat 1-11-7, the middle movable round seat 1-11-7 is connected with the inner step sliding groove 1-18 in a sliding way, the spring A1-11-5 is arranged in the inner step sliding groove 1-18, the spring A1-11-5 is abutted against the middle movable round seat 1-11-7 and the middle box body 1-9, the middle movable round seat 1-11-7 is connected with the connecting square column 1-11-8, the connecting square column 1-11-8 is connected with the inner step sliding groove 1-18 in a sliding way, connecting square columns 1-11-8 with lower press seats 1-11-11, hydraulic cylinder seats 1-11-6 with middle box 1-9, hydraulic cylinder seats 1-11-6 with hydraulic cylinders 1-11-9, hydraulic cylinders 1-11-9 with hydraulic rods 1-11-10, hydraulic rods 1-11-10 with lower press seats 1-11-11, putting the processed flour dough into extrusion chambers 1-10, injecting hydraulic oil into hydraulic cylinders 1-11-9, driving hydraulic rods 1-11-10 to drive lower press seats 1-11-11 to move downwards, driving lower press seats 1-11-11 to move downwards to extrude the flour dough in extrusion chambers 1-10, extruded dough can be extruded from the extrusion port 1-8, when the lower pressing seat 1-11-11 moves downwards to extrude the dough from the extrusion port 1-8, the lower pressing seat 1-11-11 moves downwards to drive the connecting square column 1-11-8 to move downwards, the connecting square column 1-11-8 moves downwards to drive the middle movable round seat 1-11-7 to move downwards, the middle movable round seat 1-11-7 drives the rack seats 1-11-3 at two sides to move downwards through the square column 1-11-4, when the rack seats 1-11-3 at two sides move downwards, the rack seats move for a period of time and are meshed with the gear 1-17 with a shaft, the distance from the downward movement of the rack seats 1-11-3 at two sides to the time before the rack seats are meshed with the gear 1-17 with the shaft is the length of the extruded dough, the rack seats 1-11-3 on the two sides continuously move downwards to drive the belt shaft gears 1-17 to rotate, the belt shaft gears 1-17 drive the cross slide blocks 1-4-1 with racks to move upwards, the cross slide blocks 1-4-1 with racks move upwards to push the step slide seats I1-4-4 outwards through the articulated arms I1-4-3, the step slide seats I1-4-4 drive the belt plate scrapers 1-4-5 to move towards the extrusion ports 1-8, so that extruded dough can be cut, the dough can be segmented, then hydraulic oil is reversely injected into the hydraulic cylinders 1-11-9, and the dough can be repeatedly extruded and segmented.

The third concrete implementation mode:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, the present embodiment further illustrates the present embodiment, wherein the conveying mechanism 2 includes a base 2-1, a bottom frame 2-2, a conveying frame with bearing seats 2-3, a tail roller with shafts 2-4, a driven roller with shafts 2-5, a conveying belt 2-6, a head roller with shafts 2-7, a coupling 2-8, a motor 2-9, a discharging inclined seat 2-10, a spring 2-11, a stepped sliding rod I2-12, and a stepped hole I2-13, the base 2-1 is connected with the base 1, the base 2-1 is connected with the bottom frame 2-2, the bottom frame 2 is connected with the conveying frame with bearing seats 2-3, the connection mode of the conveying frame 2-3 with the bearing seat and the tail roller 2-4 with the shaft is bearing connection, the connection mode of the conveying frame 2-3 with the bearing seat and the driven roller 2-5 with the shaft is bearing connection, the conveying belt 2-6 is in friction connection with the tail roller 2-4 with the shaft, the driven roller 2-5 with the conveying belt 2-6 is in friction connection, the conveying belt 2-6 is in friction connection with the head roller 2-7 with the shaft, the head roller 2-7 with the shaft is bearing connection with the conveying frame 2-3 with the bearing seat, the head roller 2-7 with the shaft is connected with the motor 2-9 through the shaft coupling 2-8, the motor 2-9 is connected with the conveying frame 2-3 with the bearing seat, the discharging inclined seat 2-10 is connected with the step slide bar I2-12, the stepped slide bar I2-12 is connected with a stepped hole I2-13 in a sliding way, the stepped hole I2-13 is arranged on a conveying frame 2-3 with a bearing seat, a spring 2-11 is sleeved on the stepped slide bar I2-12, two ends of the spring 2-11 are respectively propped against a discharging inclined seat 2-10 and a conveying frame 2-3 with a bearing seat, the segmented dough can fall onto a conveying belt 2-6 close to one end of a tail roller 2-4 with a shaft, a running motor 2-9 can drive a coupler 2-8 to rotate, the coupler 2-8 can drive a head roller 2-7 with a shaft to rotate, the head roller 2-7 with a shaft can drive the conveying belt 2-6 to move, the dough is conveyed from the tail roller 2-4 with a shaft to one end of the head roller 2-7 with a shaft, then the dough falls on the discharging inclined seat 2-10, the gravity of the dough can extrude the discharging inclined seat 2-10, the discharging inclined seat 2-10 can extrude the spring 2-11, then the spring 2-11 resets to drive the discharging inclined seat 2-10 to bounce outwards, so that the dough can be given a rebound force, the dough can be smoothly bounced into the frying box 3-2, and the hot oil in the frying box 3-2 can fry the dough.

The fourth concrete implementation mode:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, the present embodiment will be further described, wherein the frying mechanism 3 includes a frying pan base 3-1, a frying pan 3-2, a bearing base I3-3, a toothed wheel 3-4, a curved arm support 3-5, a limiting slide hole I3-6, a limiting slide hole II3-7, a limiting slide hole III3-8, a slotted vane 3-9, the frying pan base 3-1 is connected with a base 2-1, the frying pan base 3-1 is connected with the frying pan 3-2, the bearing base I3-3 is arranged on the frying pan 3-2, the bearing base I3-3 is connected with the toothed wheel 3-4 by a bearing, the belt gear 3-4 is connected with the grooved blade 3-9, the curved arm support 3-5 is connected with the frying box 3-2, the curved arm support 3-5 is provided with a limit sliding hole I3-6, the limit sliding hole I3-6 is connected with the step rod 1-16 in a sliding way, the limit sliding hole II3-7 is arranged on the frying box 3-2, the limit sliding hole III3-8 is arranged on the frying box 3-2, the limit sliding hole II3-7 is connected with the side sliding rod 1-13 in a sliding way, the limit sliding rod 1-14 is connected with the limit sliding hole III3-8 in a sliding way, the toothed plate 1-15 is meshed with the toothed wheel 3-4, the hinged seat A1-11-2 moves downwards to pull the connecting seat 1-12 through the linkage hinged rod 1-11-1 during the up and down reciprocating motion of the hinged seat A1-11-2 along with the hydraulic rod 1-11-10, the connecting seat 1-12 can drive the toothed plate 1-15 to move, the toothed plate 1-15 can drive the toothed wheel 3-4 to rotate, the toothed wheel 3-4 can drive the grooved vanes 3-9 to swing towards the direction close to the discharging inclined seat 2-10, when the toothed rack seats 1-11-3 on the two sides move downwards to the limit position, the toothed plate 1-15 drives the toothed wheel 3-4 to rotate so that the grooved vanes 3-9 rotate to the limit position of the frying box 3-2 close to one side of the discharging inclined seat 2-10, and then when the hinged seat A1-11-2 resets upwards, the grooved vanes 3-9 can move reversely, so that the grooved vanes 3-9 can swing back and forth to stir fried dough.

The fifth concrete implementation mode:

the embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15. when the two-sided rack holders 1-11-3 move downward to the limit position, the toothed plates 1-15 drive the toothed gears 3-4 to rotate so that the grooved vanes 3-9 rotate to the limit position at one side of the frying tank 3-2.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15, and the first embodiment will be further described with reference to the present embodiment in which a heating plate is provided on the floor of the frying pan 3-2.

The working principle of the device is as follows: the device can extrude dough, firstly, the dough with processed taste is placed into the extrusion cavity 1-10, then hydraulic oil is injected into the hydraulic cylinder 1-11-9, the hydraulic rod 1-11-10 can drive the lower pressing seat 1-11-11 to move downwards under the driving of the hydraulic oil, the lower pressing seat 1-11-11 moves downwards to extrude the dough in the extrusion cavity 1-10, and the extruded dough can be extruded from the extrusion opening 1-8; the device can cut dough in sections in the extrusion process, when the lower pressing seat 1-11-11 moves downwards to extrude the dough from the extrusion port 1-8, the lower pressing seat 1-11-11 moves downwards to drive the connecting square column 1-11-8 to move downwards, the connecting square column 1-11-8 moves downwards to drive the middle movable round seat 1-11-7 to move downwards, the middle movable round seat 1-11-7 drives the rack seats 1-11-3 at two sides to move downwards through the square column 1-11-4, when the rack seats 1-11-3 at two sides move downwards, the rack seats move for a period of time and are meshed with the gear 1-17 with a shaft, the distance from the downward movement of the rack seats 1-11-3 at two sides to the meshing with the gear 1-17 with the shaft is the length of the extruded dough, the rack seats 1-11-3 on the two sides continue to move downwards to drive the belt shaft gears 1-17 to rotate, the belt shaft gears 1-17 drive the belt rack cross slide block 1-4-1 to move upwards, the belt rack cross slide block 1-4-1 moves upwards to push the step sliding seat I1-4-4 outwards through the articulated arm I1-4-3, the step sliding seat I1-4-4 drives the belt plate scraper 1-4-5 to move towards the extrusion port 1-8 direction, so that the extruded dough can be cut, the dough can be segmented, then hydraulic oil is reversely injected into the hydraulic cylinders 1-11-9, and the dough can be repeatedly extruded and segmented; the equipment can smoothly convey segmented dough to a frying box, the segmented dough can fall onto a conveying belt 2-6 close to one end of a tail shaft-provided roller 2-4, an operating motor 2-9 can drive a coupler 2-8 to rotate, the coupler 2-8 can drive a head shaft-provided roller 2-7 to rotate, the head shaft-provided roller 2-7 can drive the conveying belt 2-6 to move, the dough is conveyed to one end of the head shaft-provided roller 2-7 from the tail shaft-provided roller 2-4 and then falls onto an inclined discharging seat 2-10, the gravity of the dough can extrude the inclined discharging seat 2-10, the inclined discharging seat 2-10 can extrude a spring 2-11, and then the spring 2-11 is reset to drive the inclined discharging seat 2-10 to bounce outwards, therefore, the dough can be given with rebound force, the dough can be smoothly bounced into the frying box 3-2, and the hot oil in the frying box 3-2 can carry out frying treatment on the dough; the device can carry out linkage frying treatment, when the hinged seat A1-11-2 moves up and down along with the hydraulic rod 1-11-10, the hinged seat A1-11-2 moves downwards to pull the connecting seat 1-12 through the linkage hinged rod 1-11-1, the connecting seat 1-12 can drive the toothed plate 1-15 to move, the toothed plate 1-15 can drive the toothed wheel 3-4 to rotate, the toothed wheel 3-4 can drive the grooved vanes 3-9 to swing in the direction close to the discharging inclined seat 2-10, when the toothed plate seats 1-11-3 on two sides move downwards to the limit position, the toothed plate 1-15 drives the toothed wheel 3-4 to rotate to enable the grooved vanes 3-9 to rotate to the limit position of the frying box 3-2 close to one side of the discharging inclined seat 2-10, then, as the hinged seat A1-11-2 is returned upward, the grooved vanes 3-9 are reversed, which causes the grooved vanes 3-9 to oscillate back and forth to mix the fried dough.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a deep-fry processing apparatus of food, includes dough processing mechanism (1), conveying mechanism (2), deep-fry mechanism (3), its characterized in that: dough processing mechanism (1) link to each other with conveying mechanism (2), conveying mechanism (2) link to each other with frying mechanism (3), frying mechanism (3) link to each other with dough processing mechanism (1).

2. A food frying apparatus as claimed in claim 1, wherein: the dough processing mechanism (1) comprises a base (1-1), a supporting seat (1-2), a sliding groove (1-3), a linkage cutting mechanism (1-4), a side sliding groove (1-5), a side box body (1-6), a stepped groove (1-7), an extrusion opening (1-8), a middle box body (1-9), an extrusion cavity (1-10), an extrusion mechanism (1-11), a connecting seat (1-12), a side sliding rod (1-13), a limiting sliding rod (1-14), a toothed plate (1-15), a stepped rod (1-16), a gear (1-17) with a shaft and an inner stepped sliding groove (1-18), wherein the base (1-1) is connected with the supporting seat (1-2), the supporting seat (1-2) is provided with the sliding groove (1-3), the chute (1-3) is connected with the linkage cutting mechanism (1-4) in a sliding way, the linkage cutting mechanism (1-4) is connected with the side chute (1-5) in a sliding way, the side chute (1-5) is arranged on the supporting seat (1-2), the side box body (1-6) is connected with the middle box body (1-9), the side box body (1-6) is provided with a step groove (1-7), the side box body (1-6) is provided with an extrusion opening (1-8), the middle box body (1-9) is provided with an extrusion cavity (1-10), the extrusion cavity (1-10) is communicated with the extrusion opening (1-8), the linkage cutting mechanism (1-4) is connected with the step groove (1-7) in a sliding way, and the extrusion mechanism (1-11) is connected with the middle box body (1-9), the extrusion mechanism (1-11) is hinged with the connecting seat (1-12), the connecting seat (1-12) is connected with a side sliding rod (1-13), a limit sliding rod (1-14) is connected with the connecting seat (1-12), the side sliding rod (1-13) is connected with a toothed plate (1-15), the limit sliding rod (1-14) is connected with the toothed plate (1-15), the toothed plate (1-15) is connected with a stepped rod (1-16), a shaft gear (1-17) is connected with the supporting seat (1-2) in a bearing mode, a shaft gear (1-17) is meshed with the linkage cutting mechanism (1-4), an inner stepped sliding chute (1-18) is arranged on the middle box body (1-9), and the inner stepped sliding chute (1-18) is connected with the extrusion mechanism (1-11) in a sliding mode; the linkage cutting mechanism (1-4) comprises a cross sliding block with a rack (1-4-1), a hinged seat (1-4-2), a hinged arm I (1-4-3), a stepped sliding seat I (1-4-4) and a scraper with a plate (1-4-5), the cross sliding block with the rack (1-4-1) is connected with the hinged seat (1-4-2), the hinged seat (1-4-2) is hinged with the hinged arm I (1-4-3), the hinged arm I (1-4-3) is hinged with the stepped sliding seat I (1-4-4), the stepped sliding seat I (1-4-4) is connected with the scraper with the plate (1-4-5), the scraper with the plate (1-4-5) is contacted with a side box body (1-6), the stepped groove (1-7) is connected with the stepped sliding seat I (1-4-4) in a sliding manner, the cross sliding block (1-4-1) with the rack is meshed with the gear (1-17) with the shaft, the cross sliding block (1-4-1) with the rack is connected with the sliding groove (1-3) in a sliding manner, and the cross sliding block (1-4-1) with the rack is connected with the side sliding groove (1-5) in a sliding manner; the extrusion mechanism (1-11) comprises a linkage hinge rod (1-11-1), a hinge seat A (1-11-2), rack seats (1-11-3) at two sides, square columns (1-11-4), springs A (1-11-5), hydraulic cylinder seats (1-11-6), a middle movable round seat (1-11-7), a connecting square column (1-11-8), hydraulic cylinders (1-11-9), hydraulic rods (1-11-10), a lower pressing seat (1-11-11) and an inner weight reduction cavity (1-11-12), the linkage hinge rod (1-11-1) is hinged with the connecting seat (1-12), the linkage hinge rod (1-11-1) is hinged with the hinge seat A (1-11-2), the hinged seat A (1-11-2) is connected with the rack seats (1-11-3) at two sides, the rack seats (1-11-3) at two sides are connected with the square column (1-11-4), the spring A (1-11-5) is sleeved on the square column (1-11-4), the square column (1-11-4) is in sliding connection with the middle box body (1-9), the square column (1-11-4) is connected with the middle movable round seat (1-11-7), the middle movable round seat (1-11-7) is in sliding connection with the inner step sliding groove (1-18), the spring A (1-11-5) is arranged in the inner step sliding groove (1-18), and the spring A (1-11-5) is abutted against the middle movable round seat (1-11-7), On the middle box body (1-9), the middle movable round seat (1-11-7) is connected with a connecting square column (1-11-8), the connecting square column (1-11-8) is connected with an inner step sliding chute (1-18) in a sliding mode, the connecting square column (1-11-8) is connected with a lower pressing seat (1-11-11), a hydraulic cylinder seat (1-11-6) is connected with the middle box body (1-9), the hydraulic cylinder seat (1-11-6) is connected with a hydraulic cylinder (1-11-9), the hydraulic cylinder (1-11-9) is connected with a hydraulic rod (1-11-10), and the hydraulic rod (1-11-10) is connected with the lower pressing seat (1-11-11).

3. A food frying apparatus as claimed in claim 1, wherein: the conveying mechanism (2) comprises a base (2-1), an underframe (2-2), a conveying frame with a bearing seat (2-3), a roller with a shaft at the tail part (2-4), a roller with a shaft at the driven part (2-5), a conveying belt (2-6), a roller with a shaft at the head part (2-7), a coupling (2-8), a motor (2-9), an inclined discharging seat (2-10), a spring (2-11), a stepped sliding rod I (2-12) and a stepped hole I (2-13), wherein the base (2-1) is connected with the base (1-1), the base (2-1) is connected with the underframe (2-2), the underframe (2-2) is connected with the conveying frame with a bearing seat (2-3), the conveying frame with a bearing seat (2-3) is connected with the roller with a shaft at the tail part (2-4) by a bearing, the connection mode of the conveyer frame (2-3) with the bearing seat and the driven roller (2-5) with the shaft is bearing connection, the conveyer belt (2-6) is in friction connection with the roller (2-4) with the shaft at the tail part, the driven roller (2-5) with the shaft is in friction connection with the conveyer belt (2-6), the conveyer belt (2-6) is in friction connection with the roller (2-7) with the shaft at the head part, the roller (2-7) with the shaft at the head part is in bearing connection with the conveyer frame (2-3) with the bearing seat, the roller (2-7) with the shaft at the head part is connected with a motor (2-9) through a coupling (2-8), the motor (2-9) is connected with the conveyer frame (2-3) with the bearing seat, the unloading inclined seat (2-10) is connected with a step slide bar I (2-12), the stepped slide bar I (2-12) is connected with a stepped hole I (2-13) in a sliding mode, the stepped hole I (2-13) is arranged on the conveying frame (2-3) with the bearing block, the spring (2-11) is sleeved on the stepped slide bar I (2-12), and two ends of the spring (2-11) are respectively abutted to the discharging inclined seat (2-10) and the conveying frame (2-3) with the bearing block.

4. A food frying apparatus as claimed in claim 1, wherein: the deep-frying mechanism (3) comprises a deep-frying box seat (3-1), a deep-frying box (3-2), a bearing seat I (3-3), a gear (3-4), a bent arm support (3-5), a limiting slide hole I (3-6), a limiting slide hole II (3-7), a limiting slide hole III (3-8) and a grooved blade (3-9), wherein the deep-frying box seat (3-1) is connected with the base (2-1), the deep-frying box seat (3-1) is connected with the deep-frying box (3-2), the bearing seat I (3-3) is arranged on the deep-frying box (3-2), the bearing seat I (3-3) is connected with the gear (3-4) in a bearing mode, the gear (3-4) is connected with the grooved blade (3-9), the bent arm support (3-5) is connected with the deep-frying box (3-2), the bent arm support (3-5) is provided with a limiting sliding hole I (3-6), the limiting sliding hole I (3-6) is connected with the stepped rod (1-16) in a sliding mode, the limiting sliding hole II (3-7) is arranged on the frying box (3-2), the limiting sliding hole III (3-8) is arranged on the frying box (3-2), the limiting sliding hole II (3-7) is connected with the side sliding rod (1-13) in a sliding mode, the limiting sliding rod (1-14) is connected with the limiting sliding hole III (3-8) in a sliding mode, and the toothed plate (1-15) is meshed with the belt gear (3-4).

5. A food frying apparatus according to claim 2 or 4, wherein: when the rack seats (1-11-3) at the two sides move downwards to the limit position, the toothed plates (1-15) drive the belt gears (3-4) to rotate so that the grooved vanes (3-9) rotate to the limit position at one side of the frying box (3-2).

6. The food frying apparatus of claim 4, wherein: a heating plate is arranged on the bottom plate of the frying box (3-2).