CN214964465U - Multifunctional automatic cooking system - Google Patents

Abstract

The utility model discloses a multifunctional automatic cooking system, wherein a guide rail I and a slider I are arranged at the top end of a support, the bottom of a movable frame I is connected with the slider I, a linear driving unit I is respectively connected with the support and the movable frame I, a linear driving unit IV is arranged at the lower part of the guide rail I, a body is connected with the movable frame I, and the bottom end of a chuck is connected with a movable end of a linear driving unit III; the mechanical arm system comprises a multi-shaft mechanical arm arranged on the side of the pulse cooking device and an electric claw assembly arranged at the front end of the multi-shaft mechanical arm; the discharge port of the batching head of the liquid batching system points to the front end and is preset above the cooking bowl; the base of the external feeding device is arranged at the tail end of the pulsating cooking device, the body of the rotary unit is arranged on the base, one end of the rotary arm is connected with the rotary shaft of the rotary unit, and the other end of the rotary arm is connected with the material taking claw; the control ends of the driving units, the multi-shaft mechanical arm, the electric claw assembly and the batching head are respectively electrically connected with the control system. The utility model has the characteristics of degree of automation is high, flexibility, safety and sanitation.

Description

Multifunctional automatic cooking system

Technical Field

The utility model belongs to the technical field of cooking equipment, concretely relates to multi-functional automatic system of cooking that boils that has strong adaptability, degree of automation height, flexibility, safety and sanitation.

Background

Cooking is one of the cooking methods, that is, putting food into boiling water to be cooked. The traditional boiled products of boiled dumplings, noodles, rice noodles and the like in China need to be cooked, various seasonings, side dishes and other ingredients are added in the cooking process, and then the delicious food can be made only by mastering certain duration. In the prior art, the traditional cooked food is generally cooked manually, people need to stare at the pot all the time in the cooking process to avoid overflowing, the pot needs to be stirred for avoiding adhesion and pasting, overcooking or undercooking can be caused due to poor fire control, the requirement on the skills of operators is higher, the labor cost is higher, and the consumption experience of customers can be directly influenced due to the taste difference caused by human factors. Although automation of a cooking process is attempted to be realized by some devices such as a noodle cooker, a dumpling cooker and the like at present, most of the devices are single cooking systems, and the whole auxiliary blanking and stirring system only serves one cooking pot, so that continuity and streamlined operation of the cooking process are difficult to realize, the efficiency is low, the device cannot be suitable for commercial application, and the device is only suitable for families; moreover, most of the devices only solve the automation of the cooking process, the main materials need to be placed in a matching way manually before cooking, and the bowls need to be placed at a designated position or on a conveyor belt manually after cooking and then taken out, so that the automation degree is low, and the labor intensity of operators is high; in addition, the existing automatic cooking device can only mechanically complete the cooking of a single cooked product, and has single function; the cooking ingredients and the duration and degree of heating can not be flexibly adjusted according to the taste requirements of customers, and the flexibility is poor; in addition, the existing automatic cooking device generally adopts modes such as steam, hot water and an electric furnace for cooking and heating, but the heating modes such as steam and hot water have certain difference with the taste of the cooked product cooked by the traditional open fire heating, and although the open fire heating mode of the electric furnace is basically consistent with the taste cooked by the traditional heating method, the problem of prominent potential safety hazard also exists. Therefore, the research on the multifunctional automatic cooking system with high automation degree, flexibility, safety and sanitation is an important guarantee for realizing the standardized operation of the traditional catering enterprises at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional automatic system of cooking with strong adaptability, degree of automation is high, flexibility, safety and sanitation

The utility model discloses a realize like this: comprises a bracket, a pulse cooking device, a material supply device, a mechanical arm system, a liquid batching system, an outward conveying device and a control system,

the pulse cooking device comprises a guide rail I, a slide block I, a linear driving unit I, a moving frame I, a linear driving unit III, a chuck, a linear driving unit IV and an induction cooker, two guide rails I are fixedly arranged at the top end of the bracket in parallel along the length direction, at least two sliding blocks I are arranged on the guide rails I at intervals, the moving frame I is fixedly connected with the adjacent sliding block I, the body of the linear driving unit I is fixedly connected or hinged with the bracket, the moving end of the linear driving unit I is fixedly connected or hinged with the moving frame I, the body of the linear driving unit III is fixedly connected with the movable frame I, the bottom end of the chuck is fixedly connected with the movable end of the linear driving unit III which is vertical to the guide rail I and extends inwards, a linear driving unit IV is arranged upwards at the lower part between the guide rails I, the body of the linear driving unit IV is fixedly connected with the support, and the moving end at the upper part of the linear driving unit IV is fixedly connected with the bottom of the induction cooker;

the material supply device is fixedly arranged on a bracket at one side of the pulse cooking device and is respectively provided with a bowl bin, a supporting bin and a material bin;

the machine arm system comprises a multi-shaft mechanical arm and an electric claw assembly, wherein a base of the multi-shaft mechanical arm is fixedly arranged on a support on one side of the pulse cooking device opposite to the material supply device, and the electric claw assembly is arranged at the front end of the multi-shaft mechanical arm;

the liquid batching system comprises a batching support and a batching head, wherein the batching support is arranged on one side of the head end of the pulsating cooking device and is fixedly connected with the support, the batching head is fixedly connected with the batching support, a discharge port points to the upper part of a preset cooking bowl of the primary induction cooker, and a feed port of the batching head is communicated with the liquid feeding device;

the external feeding device comprises a rotating unit, a rotating arm and a material taking claw, wherein the body of the rotating unit is arranged at the tail end of the pulsating cooking device and is connected with the bracket, one end of the rotating arm is fixedly connected with a rotating shaft of the rotating unit, and the other end of the rotating arm is fixedly connected with the material taking claw above a preset cooking bowl of the last induction cooker;

the control ends of the linear driving unit I, the linear driving unit III, the linear driving unit IV, the induction cooker, the multi-shaft mechanical arm, the electric claw assembly, the batching head and the rotating unit are respectively electrically connected with the control system.

Compared with the prior art, the utility model following beneficial effect has:

1. the utility model discloses a control system's centralized control to the device is cooked in the cooperation pulsation of arm system of the machine, through imitating traditional many pans manual operation, can realize the pulsating, streamlined, the flexibility operation of the process of cooking, and efficiency of cooking is higher, can be applicable to the scale commercial nature and use.

2. The utility model discloses a machine arm system, liquid feed proportioning system, send the device outward, the device cooperation material feeding mechanism is cooked in the pulsation, can realize cooking the process according to the order instruction from the unloading, cook, go out the automation of finished product overall process, operating personnel only need untimely supplementary cook the bowl, the bowl holds in the palm and the material in liquid batching and the material storehouse, degree of automation is high not only, and can realize the standardized operation of the process of cooking, thereby avoid personnel to the influence of cooking the quality of goods, and can effectively reduce operating personnel's technical requirement and intensity of labour.

3. The utility model can preset different standardized processes through the centralized control of the control system, and then automatically adapt to the standardized processes of different cooking ingredients and duration of heat according to the order, thereby not only adapting to the cooking requirements of different cooked products, but also having wider application range; and the taste of the customer can be flexibly adjusted according to the taste requirement, the consumption experience of the customer can be effectively improved, and the flexibility is strong.

4. The utility model adopts the non-open fire electromagnetic oven heating, not only the taste of the cooked product is basically consistent with the traditional open fire heating cooking, but also the sootiness and the singing of the open fire heating can be avoided, the sanitation of the cooking environment can be effectively improved, and the potential safety hazard of the open fire heating can be eliminated.

Therefore, the utility model has the characteristics of strong adaptability, degree of automation height, flexibility, safety and sanitation.

Drawings

FIG. 1 is a schematic view of the right side structure of the present invention;

FIG. 2 is a schematic diagram of the left side structure of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a left side view of FIG. 3;

FIG. 5 is a schematic view of the pulse cooking device, liquid ingredient system, meat patty supply device and delivery device of FIG. 1;

FIG. 6 is a partial schematic view of the pulse cooking device of FIG. 5;

FIG. 7 is a schematic diagram of a portion of the robot system of FIG. 1;

FIG. 8 is a logic control diagram for automatic cooking of the present invention;

in the figure: 1-a support, 2-a pulsating cooking device, 2A-a guide I, 2B-a slide I, 2C-a linear drive unit I, 2D-a moving rack I, 2E-a linear drive unit III, 2F-a chuck, 2G-a linear drive unit IV, 2H-an induction cooker, 2H 1-a first induction cooker, 2H 2-a last induction cooker, 3-a material supply device, 3A-a material support, 3B-a bowl bin, 3C-a pallet bin, 3D-a material bin, 3E-a collection bin, 4-a robot arm system, 4A-a robot arm support, 4B-a guide II, 4C-a slide II, 4D-a linear drive unit II, 4E-a moving rack II, 4F-a multi-axis robot arm, 4G-an electric gripper assembly, 4G 1-electric claw, 4G 2-sucking disc rod, 4G 3-sucking disc, 4H-controller, 5-liquid batching system, 5A-batching support, 5B-batching head, 6-outward feeding device, 6A-rotating arm, 6B-material taking claw, 8-meat cake supply device, 8A-meat grinder, 8B-meat cake discharging nozzle, 8C-moving unit, 8D-cutting knife, 8E-supplying support, 8F-guide rail III, 8G-sliding block III, 8H-supporting plate, 8J-linear driving unit VI, 8K-moving unit support, 10-cooking bowl, 11-bowl support, 12-material box, 13-pressing disc and 14-cleaning drum.

Detailed Description

The present invention is further described with reference to the following drawings and examples, but the present invention is not limited thereto in any way, and any modification or improvement based on the teaching of the present invention is within the protection scope of the present invention.

As shown in fig. 1 to 7, the utility model comprises a bracket 1, a pulse cooking device 2, a material supply device 3, a robot arm system 4, a liquid batching system 5, a delivery device 6 and a control system (not shown in the figure),

the pulse cooking device 2 comprises a guide rail I2A, a slide block I2B, a linear driving unit I2C, a moving frame I2D, a linear driving unit III 2E, a chuck 2F, a linear driving unit IV 2G and an induction cooker 2H, wherein the top end of the support 1 is fixedly provided with two guide rails I2A in parallel along the length direction, at least two slide blocks I2B are arranged on the guide rail I2A at intervals, the moving frame I2D is fixedly connected with adjacent slide blocks I2B, the body of the linear driving unit I2C is fixedly connected or hinged with the support 1, the moving end of the linear driving unit I2C is fixedly connected or hinged with the moving frame I2D, the body of the linear driving unit III 2E is fixedly connected with the moving frame I2D, the bottom end of the chuck 2F is fixedly connected with the moving end of the linear driving unit III 2E which is perpendicular to the guide rail I2A and extends inwards, the lower part between the guide rails I2A is upwards provided with the linear driving unit IV 2G, the body of the linear driving unit IV 2G is fixedly connected with the support 1, and the moving end at the upper part of the linear driving unit IV 2G is fixedly connected with the bottom of the induction cooker 2H;

the material supply device 3 is fixedly arranged on the bracket 1 at one side of the pulse cooking device 2 and is respectively provided with a bowl bin 3B, a support bin 3C and a material bin 3D;

the mechanical arm system 4 comprises a multi-shaft mechanical arm 4F and an electric claw assembly 4G, wherein the base of the multi-shaft mechanical arm 4F is fixedly arranged on the support 1 on one side of the pulse cooking device 2 opposite to the material supply device 3, and the electric claw assembly 4G is arranged at the front end of the multi-shaft mechanical arm 4F;

the liquid batching system 5 comprises a batching support 5A and a batching head 5B, wherein the batching support 5A is arranged on one side of the head end of the pulse cooking device 2 and is fixedly connected with the support 1, the batching head 5B is fixedly connected with the batching support 5A, a discharge port points to the upper part of a preset cooking bowl of the first induction cooker 2H1, and a feed port of the batching head 5B is communicated with a liquid feeding device;

the delivery device 6 comprises a rotating unit, a rotating arm 6A and a material taking claw 6B, wherein the body of the rotating unit is arranged at the tail end of the pulse cooking device 2 and is connected with the bracket 1, one end of the rotating arm 6A is fixedly connected with a rotating shaft of the rotating unit, and the other end of the rotating arm 6A is fixedly connected with the material taking claw 6B above a preset cooking bowl of the last induction cooker 2H 2;

the control ends of the linear driving unit I2C, the linear driving unit III 2E, the linear driving unit IV 2G, the induction cooker 2H, the multi-shaft mechanical arm 4F, the electric claw assembly 4G, the batching head 5B and the rotating unit are respectively electrically connected with a control system.

The linear driving unit I2C, the linear driving unit III 2E and the linear driving unit IV 2G are cylinders or oil cylinders, the rotating unit is a stepping motor, electromagnetic valves on control pipelines of the cylinders and the oil cylinders are electrically connected with control ports of a control system, and electromagnetic valves on feeding port pipelines of the batching head 5B are electrically connected with the control ports of the control system.

Material feeding unit 3 still includes material support 3A, material support 3A set up in one side of device 2 is cooked in the pulsation and with support 1 fixed connection, bowl storehouse 3B and/or hold in the palm storehouse 3C and be the basket shape structure of upper shed and slope and set up in material support 3A, material support 3A still inclines the fixed material storehouse 3D that sets up a plurality of basket shape structures.

As shown in fig. 7, the robot arm system 4 further includes a robot arm support 4A, a guide rail ii 4B, a slider ii 4C, a linear driving unit ii 4D, and a moving frame ii 4E, the arm support 4A is provided at a side of the pulse cooking device 2 opposite to the material supplying device 3 and is fixedly connected to the support 1, the machine arm support 4A is fixedly provided with two guide rails II 4B in parallel along the length direction of the pulsating cooking device 2, at least two sliding blocks II 4C are arranged on the guide rail II 4B at intervals, the bottom of the moving frame II 4E is fixedly connected with the sliding blocks II 4C, the body of the linear driving unit II 4D is fixedly connected or hinged with the machine arm support 4A, the moving end of the linear driving unit II 4D is fixedly connected or hinged with the moving frame II 4E, the base of the multi-axis mechanical arm 4F is fixedly arranged on the moving frame II 4E, and the control end of the linear driving unit II 4D is electrically connected with the control system.

Electric claw subassembly 4G includes electric claw 4G1, sucking disc pole 4G2, sucking disc 4G3, the perpendicular fixed connection of base and the other end and sucking disc 4G3 fixed connection of sucking disc pole 4G2 one end and electric claw 4G1, the air inlet of sucking disc 4G3 passes through pipeline and air supply system intercommunication, be provided with the governing valve of being connected with the control system electricity on the admission line of sucking disc 4G3, electric claw 4G 1's control end and control system electric connection.

The outward conveying device 6 further comprises a linear driving unit V, a body of the linear driving unit V is fixedly arranged on the support 1, and a body of the rotating unit is fixedly arranged at a vertical upward moving end of the linear driving unit V.

As shown in fig. 5, the utility model discloses still include meat pie feeding mechanism 8, meat pie feeding mechanism 8 includes meat grinder 8A, meat pie ejection of compact mouth 8B, mobile unit 8C, cutting knife 8D, meat grinder 8A is fixed to be set up in head end one side of pulse cooking device 2, ejection of compact mouth 8B and meat grinder 8A discharge gate intercommunication and the directional top that the cooking bowl was preset to first electromagnetism stove 2H1 of discharge port, mobile unit 8C's body is fixed to be set up in the support 1 of pulse cooking device 2 head end, cutting knife 8D set up in meat pie ejection of compact mouth 8B's discharge port below and with mobile unit 8C's removal end fixed connection, meat grinder 8A and mobile unit 8C's control end respectively with control system electric connection.

Meat pie feeding mechanism 8 still includes supply support 8E, guide rail III 8F, slider III 8G, backup pad 8H, linear drive unit VI 8J, supply support 8E set up in 2 head end one sides of pulsation cooking device and with support 1 fixed connection, guide rail III 8F along 2 length direction fixed settings of pulsation cooking device in supply support 8E upper end, interval fixed two at least slider III 8G that are provided with on the guide rail III 8F, backup pad 8H bottom and slider II 4C fixed connection, linear drive unit VI 8J's body and supply support 8E fixed connection or articulated and removal end and backup pad 8H fixed connection or articulated, meat grinder 8A fixed setting is in backup pad 8H upper end, linear drive unit VI 8J's control end and control system electric connection.

The meat pie supply device 8 further comprises an inverted L-shaped moving unit support 8K, the lower side of the moving unit support 8K is fixedly connected with the support 1 at the head end of the pulse cooking device 2, the body of the moving unit 8C is fixedly arranged at the upper end of the moving unit support 8K in the horizontal direction, and the cutting knife 8D can be driven by the moving end of the moving unit 8C to move back and forth below the discharge port of the meat pie discharge nozzle 8B.

The linear driving unit II 4D and/or the linear driving unit VI 8J are a hydraulic oil cylinder or an air cylinder, a stepping motor and a screw rod pair.

Examples

As shown in fig. 1 to 8, taking the process of cooking rice noodles in the pulsation cooking device 2 having 4 heating positions of the induction cooker 2H as an example, the steps are performed as follows:

1. starting the equipment, self-checking the control system of the equipment and the controllers of all subsystems, returning the pulse cooking device 2 to the preparation state according to the current states of all heating positions, and returning the mechanical parts of the mechanical arm system 4 and the delivery device 6 to the preset original point to finish the operation preparation of the equipment.

2. Judging the state of a heating position:

2.1 the first heating position reads order information: the control system receives order placing information of a client pushed by the order placing system, splits the order into preset single commodity information after receiving a new order and puts the single commodity information into a commodity queue, and obtains the commodity information from the commodity queue during operation;

2.2 the control system judges the processing states of the second, third and fourth heating positions, the commodity information and the information of each material on the material supply device 3.

3. The control system sends the state of each heating position of the pulsating cooking device 2 and the number of the cooking bowls 10 and the bowl holders 11 judged in the step 2 to the controller of the robot arm system 4, and starts the operation flow of the multi-shaft robot arm 4F.

4. Cooking process:

4.1 the multi-axis robot arm 4F takes the cooking bowl 11 from the bowl bin 3B of the material supplying device 3 through the suction cup 4G3 and places it at the first heating position of the pulsating cooking device 2;

4.2 the controller of the robot arm system 4 sends the soup and seasoning filling request to the control system, and the control system controls the dosing head 5B of the liquid dosing system 5 to fill soup and seasoning into the cooking bowl 10;

4.3 after the controller of the robot arm system 4 receives the completion signal of soup and seasoning injection sent by the control system, the multi-shaft robot arm 4F puts the rice noodles into the cooking bowl 10 from the material bin 3D of the material supply device 3, and the control system starts the induction cooker 2H1 at the first heating position of the pulsating cooking device 2 to heat the cooking bowl 10 and the content thereof;

4.4 after the rice noodles are placed in the cooking bowl 10, the multi-shaft mechanical arm 4F sends a meat pie making request to the control system, and the control system controls the linear driving unit VI 8J to push the meat grinder 8A to move forwards until the discharge port of the meat pie discharge nozzle 8B is above the cooking bowl 11 at the first heating position; then the control system starts the meat grinder 8A and the moving unit 8C of the meat pie supply device 8, meat pie is extruded from a meat pie discharging nozzle 8B connected with the meat grinder 8A, the cutting knife 8D is driven by the moving end of the moving unit 8C to move horizontally, and the meat pie extruded from the meat pie discharging nozzle 8B is cut and falls into the cooking bowl 10; then the moving unit 8C and the linear driving unit VI 8J respectively push the cutting knife 8D and the meat grinder 8A to retreat to the initial positions;

4.5 after the controller of the mechanical arm system 4 receives the signal that the meat pie is made, the electric claw 4G1 of the multi-axis mechanical arm 4F grabs the pressure plate 13 in the pressure plate cleaning cylinder 14, the pressure plate 13 is used for uniformly stirring the contents in the cooking bowl 10, and then the control system stops the induction cooker 2H1 at the first heating position of the pulse cooking device 2 according to the preset heating duration;

4.6 the control system starts the linear driving unit III 2E of the pulse cooking device 2, the cooking bowl 10 is clamped by the chuck 2F, then the linear driving unit IV 2G is started to enable the table top of the induction cooker 2H to descend, finally the linear driving unit I2C is started, the cooking bowl 10 is moved to the position above the table top of the induction cooker 2H at the second heating position by the chuck 2F, the linear driving unit IV 2G is started again to enable the table top of the induction cooker 2H to ascend to support the cooking bowl 10, the linear driving unit III 2E retracts to place the cooking bowl 10 on the table top of the induction cooker 2H at the second heating position, and the linear driving unit I2C retracts to return the moving frame I2D and the accessory components thereof to the first heating position;

4.7 after the controller of the mechanical arm system 4 receives that the cooking bowl 10 reaches the second heating position, the controller controls the multi-shaft mechanical arm 4F to grab preset ingredients from the material bin 3D of the material supply device 3 according to the commodity information and place the ingredients into the cooking bowl 10 at the second heating position, and then the controller starts and stops the induction cooker 2H at the second heating position of the pulsating cooking device 2 according to the preset heating time length;

4.8 according to the step 4.6, the cooking bowl 10 on the second heating position is moved to the top of the induction cooker 2H on the third heating position and reset;

4.9 after the controller of the robot arm system 4 receives that the cooking bowl 10 reaches the third heating position, the controller controls the electric claw 4G1 of the multi-shaft robot arm 4F to grab the pressure plate 13 in the pressure plate cleaning cylinder 14, the ingredients in the cooking bowl 10 at the third heating position are uniformly stirred by the pressure plate 13 according to the preset time length and speed, and meanwhile, the control system starts and stops the induction cooker 2H at the third heating position of the pulsating cooking device 2 according to the preset heating time length;

4.10 the controller of the robot arm system 4 controls the multi-axis robot arm 4F to suck the bowl support 11 from the support bin 3C of the material supply device 3 through the suction cup 4G3, and then to place the bowl support on the top of the induction cooker 2H at the fourth heating position of the pulse cooking device 2;

4.11 according to the step 4.6, the cooking bowl 10 at the third heating position is moved into the bowl support 11 at the fourth heating position and reset;

4.12 the control system controls the linear driving unit V and the rotating unit of the outward feeding device 6, the bowl support 11 and the cooking bowl 10 at the fourth heating position are rotationally transferred to the finished product blanking area at one side of the pulsating cooking device 2 through the material taking claw 6B, cooking of the small-pot rice noodles is completed, and the processed commodity information is recorded.

5. Repeating the step 4 can realize the pulse type continuous cooking of the cooked food.

Claims (9)

1. A multifunctional automatic cooking system is characterized by comprising a bracket (1), a pulse cooking device (2), a material supply device (3), a mechanical arm system (4), a liquid batching system (5), an outward conveying device (6) and a control system,

pulsation cooking device (2) is including guide rail I (2A), slider I (2B), linear drive unit I (2C), remove frame I (2D), linear drive unit III (2E), chuck (2F), linear drive unit IV (2G), electromagnetism stove (2H), the top of support (1) is provided with two guide rails I (2A) along length direction parallel fixation, interval sets up two at least slider I (2B) on guide rail I (2A), remove frame I (2D) and adjacent slider I (2B) fixed connection, linear drive unit I (2C)'s body and support (1) fixed connection or articulated and remove end and remove frame I (2D) fixed connection or articulated, linear drive unit III (2E)'s body and removal frame I (2D) fixed connection, the bottom of chuck (2F) and the linear drive unit (2A) that perpendicular to guide rail I (2A) and inboard extend (2D), (2D) 2E) The moving end of the electromagnetic oven is fixedly connected, a linear driving unit IV (2G) is upwards arranged at the lower part between the guide rails I (2A), the body of the linear driving unit IV (2G) is fixedly connected with the bracket (1), and the moving end at the upper part of the linear driving unit IV (2G) is fixedly connected with the bottom of the electromagnetic oven (2H);

the material supply device (3) is fixedly arranged on the bracket (1) at one side of the pulse cooking device (2) and is respectively provided with a bowl bin (3B), a support bin (3C) and a material bin (3D);

the mechanical arm system (4) comprises a multi-shaft mechanical arm (4F) and an electric claw assembly (4G), wherein the base of the multi-shaft mechanical arm (4F) is fixedly arranged on the support (1) on one side of the pulse cooking device (2) opposite to the material supply device (3), and the electric claw assembly (4G) is arranged at the front end of the multi-shaft mechanical arm (4F);

the liquid batching system (5) comprises a batching support (5A) and a batching head (5B), the batching support (5A) is arranged on one side of the head end of the pulse cooking device (2) and is fixedly connected with the support (1), the batching head (5B) is fixedly connected with the batching support (5A), a discharge port points to the upper part of a preset cooking bowl of the primary induction cooker (2H 1), and a feed port of the batching head (5B) is communicated with the liquid feeding device;

the delivery device (6) comprises a rotating unit, a rotating arm (6A) and a material taking claw (6B), wherein the body of the rotating unit is arranged at the tail end of the pulse cooking device (2) and is connected with the bracket (1), one end of the rotating arm (6A) is fixedly connected with a rotating shaft of the rotating unit, and the other end of the rotating arm (6A) is fixedly connected with the material taking claw (6B) above a preset cooking bowl of the last induction cooker (2H 2);

the control end of the linear driving unit I (2C), the linear driving unit III (2E), the linear driving unit IV (2G), the induction cooker (2H), the multi-shaft mechanical arm (4F), the electric claw assembly (4G), the batching head (5B) and the control end of the rotating unit are respectively electrically connected with the control system.

2. The multifunctional automatic cooking system according to claim 1, wherein the material supply device (3) further comprises a material support (3A), the material support (3A) is arranged at one side of the pulse cooking device (2) and is fixedly connected with the support (1), the bowl bin (3B) and/or the holding bin (3C) are in a basket-shaped structure with an upper opening and are obliquely arranged on the material support (3A), and the material support (3A) is further obliquely and fixedly provided with a plurality of material bins (3D) with basket-shaped structures.

3. The multifunctional automatic cooking system of claim 1, wherein the robot arm system (4) further comprises a robot arm support (4A), a guide rail II (4B), a slide block II (4C), a linear driving unit II (4D) and a moving frame II (4E), the robot arm support (4A) is arranged at one side of the pulsating cooking device (2) opposite to the material supply device (3) and is fixedly connected with the support (1), the robot arm support (4A) is fixedly provided with two guide rails II (4B) along the length direction of the pulsating cooking device (2), at least two slide blocks II (4C) are arranged on the guide rails II (4B) at intervals, the bottom of the moving frame II (4E) is fixedly connected with the slide blocks II (4C), the body of the linear driving unit II (4D) is fixedly connected or hinged with the robot arm support (4A) and the moving end is fixedly connected or hinged with the moving frame II (4E), the base of the multi-axis mechanical arm (4F) is fixedly arranged on the moving frame II (4E), and the control end of the linear driving unit II (4D) is electrically connected with the control system.

4. The multifunctional automatic cooking system of claim 3, wherein the electric claw assembly (4G) comprises an electric claw (4G 1), a suction cup rod (4G 2) and a suction cup (4G 3), one end of the suction cup rod (4G 2) is fixedly connected with the base of the electric claw (4G 1) vertically and the other end of the suction cup rod is fixedly connected with a suction cup (4G 3), the air inlet of the suction cup (4G 3) is communicated with an air supply system through a pipeline, an adjusting valve electrically connected with a control system is arranged on the air inlet pipeline of the suction cup (4G 3), and the control end of the electric claw (4G 1) is electrically connected with the control system.

5. The multifunctional automatic cooking system according to claim 1, wherein the feeding device (6) further comprises a linear driving unit V, a body of the linear driving unit V is fixedly arranged on the bracket (1), and a body of the rotating unit is fixedly arranged at a moving end of the linear driving unit V which is vertically upward.

6. The multifunctional automatic cooking system according to claim 1, wherein the linear driving unit i (2C), the linear driving unit iii (2E) and the linear driving unit iv (2G) are cylinders or cylinders, the rotating unit is a stepping motor, and the solenoid valves on the feeding port pipeline of the dosing head (5B) and the cylinder and cylinder control pipelines are respectively electrically connected to the control port of the control system.

7. The multifunctional automatic cooking system according to any of claims 1 to 6, further comprising a meat patty supplying means (8), the meat pie supply device (8) comprises a meat grinder (8A), a meat pie discharging nozzle (8B), a moving unit (8C) and a cutting knife (8D), the meat grinder (8A) is fixedly arranged on one side of the head end of the pulse cooking device (2), the discharge nozzle (8B) is communicated with the discharge hole of the meat grinder (8A) and the discharge port points to the upper part of a preset cooking bowl of the first induction cooker (2H 1), the body of the mobile unit (8C) is fixedly arranged on a bracket (1) at the head end of the pulse cooking device (2), the cutting knife (8D) is arranged below the discharge port of the meat pie discharge nozzle (8B) and is fixedly connected with the movable end of the movable unit (8C), the control ends of the meat grinder (8A) and the mobile unit (8C) are respectively electrically connected with the control system.

8. The multifunctional automatic cooking system of claim 7, wherein the patty supplying device (8) further comprises a supplying support (8E), a guide rail III (8F), a slide block III (8G), a support plate (8H), and a linear driving unit VI (8J), the supplying support (8E) is arranged on one side of the head end of the pulsating cooking device (2) and fixedly connected with the support (1), the guide rail III (8F) is fixedly arranged at the upper end of the supplying support (8E) along the length direction of the pulsating cooking device (2), at least two slide blocks III (8G) are fixedly arranged on the guide rail III (8F) at intervals, the bottom of the support plate (8H) is fixedly connected with a slide block II (4C), the body of the linear driving unit VI (8J) is fixedly connected or hinged with the supplying support (8E) and the moving end is fixedly connected or hinged with the support plate (8H), the meat grinder (8A) is fixedly arranged at the upper end of the supporting plate (8H), and the control end of the linear driving unit VI (8J) is electrically connected with the control system.

9. The multifunctional automatic cooking system according to claim 7, wherein the patty supplying device (8) further comprises a moving unit support (8K) in an inverted "L" shape, the lower side of the moving unit support (8K) is fixedly connected with the support (1) at the head end of the pulse cooking device (2), the body of the moving unit (8C) is fixedly arranged at the horizontal upper end of the moving unit support (8K), and the cutting knife (8D) can move back and forth below the discharge port of the patty discharge nozzle (8B) under the driving of the moving end of the moving unit (8C).

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