CN209984014U - Porridge cooking equipment - Google Patents

Abstract

The utility model discloses a congee cooking equipment, include: the porridge distribution mechanism comprises a porridge distribution barrel, a sealing ball bracket and a cam assembly, wherein the sealing ball is movably arranged in the porridge distribution opening, the sealing ball bracket is arranged at the bottom of the sealing ball to lift the sealing ball, and the sealing ball bracket is driven to lift by the cam assembly arranged on the side part of the porridge distribution opening; meat adds mechanism includes: the meat mixing box, the lower meat baffle plate and the rotary vane component; the lower meat baffle is suitable for sealing the meat discharge port; the rotary vane component comprises a lower meat rotary vane and a lower meat rotary vane motor, the lower meat rotary vane is arranged below the lower meat baffle, and the lower meat rotary vane motor drives the lower meat rotary vane to rotate so as to drive the lower meat baffle to switch between a position for sealing the discharge hole and a position for opening the discharge hole. The utility model discloses a divide the function that congee and batching added, make the congee no longer need the people hand hold the congee and the batching adds after the porridge is cooked, make the degree of automation of system congee higher, use more convenient.

Description

Porridge cooking equipment

Technical Field

The utility model relates to the field of food machinery, concretely relates to congee cooking equipment.

Background

Porridge is one of daily foods well liked by people, is light and soft and can regulate intestines and stomach, so the demand for cooking porridge in daily life is very large. In the existing porridge cooking equipment, the most common household small porridge cooking machine needs the hands to wash rice and water, and needs the hands to hold porridge after the porridge cooking is finished, so that the participation degree of manpower is very high, and the use experience is not good enough. The porridge cooking device is also used in a large dining place, can realize the function of automatically cooking porridge, and can not avoid people to hold porridge after the porridge is cooked. The cooking personnel still need carry out certain branch congee operation and just can send the dining table to go, still rely on the staff to a certain extent, and it is convenient inadequately to use, and equipment degree of automation is high inadequately, and output efficiency is lower.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a porridge cooking device which can integrate the working procedure of cooking porridge.

A congee cooking apparatus, comprising: the rice feeding mechanism is used for conveying raw rice; the porridge cooking mechanism is used for cooking raw rice and water; the porridge distribution mechanism is arranged below the porridge cooking mechanism and comprises a porridge distribution barrel, a sealing ball bracket and a cam assembly, wherein a round porridge distribution opening is formed in the bottom of the porridge distribution barrel, the diameter of the sealing ball is not smaller than that of the porridge distribution opening, the sealing ball is movably arranged in the porridge distribution opening, the sealing ball bracket is arranged at the bottom of the sealing ball to lift the sealing ball, and the sealing ball bracket is driven to lift by the cam assembly arranged on the side part of the porridge distribution opening so as to enable the sealing ball to be switched between a state of closing the porridge distribution opening and a state of opening the porridge distribution opening; the batching adds the device, the batching adds the device and includes that meat adds the mechanism, meat adds the mechanism and includes: the meat mixing box, the lower meat baffle plate and the rotary vane component; the meat batching box comprises a meat discharge port; the lower meat baffle is hinged to the meat discharge port and is suitable for sealing the meat discharge port; the rotary blade component comprises a lower meat rotary blade and a lower meat rotary blade motor, the lower meat rotary blade is arranged below the lower meat baffle, and the lower meat rotary blade motor drives the lower meat rotary blade to rotate so as to drive the lower meat baffle to switch between positions for sealing the discharge hole and opening the discharge hole; the porridge cooking device comprises a conveying belt, a porridge bowl and a heating device, wherein the conveying belt is arranged at the bottom of the porridge cooking device, and the porridge bowl is placed on the conveying belt which conveys the porridge bowl; and the control part controls the actions of all the mechanisms and works cooperatively.

Further, the cam assembly comprises a cam motor, an eccentric cam and a limiting slide block; the cam motor drives the eccentric cam to rotate, one side of the limiting sliding block is tightly propped against the eccentric cam, and the other side of the limiting sliding block is fixedly connected with the sealing ball bracket.

Further, the porridge distribution mechanism is characterized by also comprising a porridge distribution stirring rotary vane and a porridge distribution stirring motor; the porridge dividing stirring rotary vane is arranged in the porridge dividing barrel, and the porridge dividing stirring motor drives the porridge dividing stirring rotary vane to rotate.

The porridge distribution mechanism is further characterized by further comprising a water distribution guide disc and a water distribution guide disc motor; the water diversion guide disc is hinged outside the porridge diversion barrel, and the water diversion guide disc is driven by the water diversion guide disc motor to rotate around the porridge diversion barrel.

Further, the meat adding mechanism also comprises a meat storage hopper; the meat storage hopper is horizontally inserted into the meat batching box; the meat storage hopper also comprises a hopper bottom plate, and the hopper bottom plate is movably inserted at the bottom of the meat storage hopper.

Further, the meat adding mechanism further comprises a fixed side plate and an electric push rod; the fixed side plate is vertically inserted into the side face of the meat storage hopper, and the electric push rod is arranged at the top of the fixed side plate and drives the fixed side plate to do lifting motion.

Furthermore, the rice feeding mechanism is positioned at the starting end of the conveyor belt and comprises a rice storage box body, a rice feeding motor, a spiral spring and a rice conveying pipeline; raw rice is stored in the rice storage box; the rice conveying pipeline is longitudinally arranged in the rice storage box body, and a raw rice outlet is formed in the top end of the rice conveying pipeline; the spiral spring is arranged in the rice conveying pipeline; the rice feeding motor is in transmission with the spiral spring so as to drive the spiral spring to rotate.

Further, the porridge cooking device also comprises a rice washing mechanism; the rice washing mechanism is arranged below the rice feeding mechanism and comprises a rice washing barrel, a rice washing rotary vane, a rice washing motor and a sealing assembly; a rice washing inlet and a rice washing water inlet are formed in the top of the rice washing barrel, the rice washing inlet is communicated with the rice feeding mechanism, the rice washing water inlet is communicated with an external water source, and a rice washing outlet is formed in the bottom of the rice washing barrel; the rice washing rotary vane is arranged in the rice washing barrel and is driven to rotate by the rice washing motor; the sealing assembly is arranged in the rice washing outlet and comprises a sealing plate and a sealing motor, the sealing plate is suitable for sealing the rice washing outlet, the sealing plate is hinged in the rice washing outlet, and the sealing motor drives the sealing plate to rotate, so that the sealing plate is switched between a state of sealing the rice washing outlet and a state of opening the rice washing outlet.

Furthermore, the rice washing mechanism also comprises a bottom filter plate arranged at the bottom of the rice washing barrel, the bottom filter plate is spiral, filter plate gaps are formed at two ends of the bottom filter plate, and the rice washing rotary vane is movably inserted in the bottom filter plate; the rice washing rotary vane is also fixedly provided with a rotary clamping plate, and the rotary clamping plate is suitable for sealing the notch of the filter plate; the rice washing rotary vane drives the rotary clamping plate to rotate, so that the rotary clamping plate is switched between a position for closing the notch of the filter plate and a position far away from the notch of the filter plate.

Further, the rice washing mechanism also comprises a rice filtering groove, a rice filtering motor and a water guide groove; the rice filtering groove is arranged below the rice washing outlet and is hinged in the water chute; the rice filtering motor is in transmission connection with the rice filtering groove to drive the rice filtering groove to rotate.

Further, the porridge cooking mechanism comprises a porridge cooking barrel, a heating base, a barrel cover assembly and a cover opening motor; the porridge cooking barrel comprises an opening of the porridge cooking barrel; the heating base is arranged at the bottom of the porridge cooking barrel; the barrel cover assembly is arranged at the opening of the porridge cooking barrel, is of a folding fan-shaped structure and comprises a plurality of fan-shaped plates hinged on the same shaft hole, and the fan-shaped plates are arranged in a stacked manner; the output end of the cover opening motor is positioned in the shaft hole and drives the fan-shaped plate to rotate so as to change the unfolding angle of the barrel cover component; the opening of the porridge cooking barrel is sealed when the barrel cover component is completely unfolded.

Furthermore, the porridge cooking mechanism also comprises a fixing frame and a porridge discharging motor; the fixing frame is of a U-shaped structure, the porridge cooking barrel is hinged to the fixing frame, and the lower porridge motor drives the porridge cooking barrel to rotate around the fixing frame.

Further, the porridge cooking equipment also comprises a secondary cooking mechanism, and the secondary cooking mechanism is arranged on the side part of the ingredient adding device; the secondary boiling mechanism comprises a first linear module, a second linear module, a secondary stirring rotary vane, a secondary stirring motor, a bowl pushing assembly and a heating base; the first linear module is longitudinally arranged, and the second linear module is transversely arranged on the first linear module and driven by the first linear module; the secondary stirring rotary vane is arranged on the second linear module and is driven by the second linear module; the secondary stirring motor is arranged at the top of the secondary stirring rotary vane and drives the secondary stirring rotary vane to rotate; the porridge bowl is driven to the heating base by the bowl pushing assembly.

Furthermore, the bowl pushing assembly comprises a third linear module and a bowl pushing rod; the bowl pushing rod is of an L-shaped structure and is connected with a third linear module, and the third linear module drives the bowl pushing rod to do linear reciprocating motion so as to push the porridge bowl to the heating base.

Further, the mechanism is boiled to secondary still includes the washing shell, the washing shell set up in the lateral part of heating base, be provided with the washing chamber of holding washing liquid on the washing shell.

Furthermore, the porridge cooking equipment also comprises a bowl feeding mechanism, and the bowl feeding mechanism is arranged above the starting end of the conveying belt; go up bowl mechanism including depositing bowl box, screw and lead screw motor, the porridge bowl is range upon range of form and erects on screw's the external screw thread, lead screw motor drive screw rotates to drive the porridge bowl is elevating movement.

Compared with the prior art, the utility model discloses the beneficial effect that can reach does: the rice feeding mechanism is used for conveying raw rice, the porridge cooking mechanism is used for cooking porridge, and the eccentric cam of the porridge dividing mechanism drives the sealing ball to lift in the porridge dividing opening so as to finish quantitative distribution of the porridge; after rice is boiled into porridge, the function of separating porridge is realized, so that the porridge does not need to be contained and added with ingredients by hands after being boiled, the degree of automation of porridge making is higher, the preparation efficiency is higher, and the use is more convenient.

Drawings

Fig. 1 is an overall schematic view of a congee cooking apparatus;

fig. 2 is an exploded view of the congee cooking apparatus versus the mechanisms;

FIG. 3 is a cross-sectional view of the upper bowl mechanism;

FIG. 4 is a perspective view of the rice feeding mechanism;

FIG. 5 is a schematic view of the hidden rice transporting pipeline in FIG. 4;

FIG. 6 is a perspective view of a rice washing mechanism;

FIG. 7 is a schematic view of the inside of a rice washing tub;

FIG. 8 is a schematic view of a bottom filter plate;

FIG. 9 is a partial schematic view of the rice washing mechanism in a rice washing state;

FIG. 10 is a partial schematic view of the rice washing mechanism in a rice loading state;

FIG. 11 is a schematic view of a sealing assembly of the rice washing mechanism;

fig. 12 is a perspective view of a porridge cooking mechanism;

fig. 13 is an internal view of a congee cooking barrel;

fig. 14 is a schematic view of the lid assembly in a deployed condition;

fig. 15 is a schematic view of the lid assembly in a collapsed state;

fig. 16 is a schematic view of the porridge cooking mechanism in a porridge cooking state;

fig. 17 is a perspective view of the porridge dispensing mechanism;

fig. 18 is a front view of the porridge dispensing mechanism;

FIG. 19 is a cross-sectional view of FIG. 18;

FIG. 20 is a partial view taken at A of FIG. 19;

FIG. 21 is an exploded view of the cam assembly, the sealing ball carrier and the sealing ball;

FIG. 22 is a schematic view showing the wastewater conduit rotating around the porridge-separating tank;

FIG. 23 is a perspective view of a meat adding mechanism;

FIG. 24 is a right side view of the meat batching box;

FIG. 25 is a front cross-sectional view of the meat batching box;

FIG. 26 is a schematic view of a first state of rotation of the lower meat rotor;

FIG. 27 is a second state diagram of the lower meat rotor;

FIG. 28 is a schematic view of the meat storage hopper being drawn out of the meat batching box;

fig. 29 is a perspective view of the powder particle adding mechanism;

FIG. 30 is a partial view of the powder particle addition mechanism;

FIG. 31 is a perspective view of a sauce addition mechanism;

FIG. 32 is a cross-sectional view of FIG. 31;

FIG. 33 is a perspective view of an easy ingredient addition mechanism;

FIG. 34 is a first perspective view of the mobile loading assembly;

FIG. 35 is a second perspective view of the mobile loading assembly;

FIG. 36 is a perspective view of the secondary boiling mechanism;

FIG. 37 is a schematic view of the stirring vane in a state of stirring porridge;

FIG. 38 is a partial view taken at B of FIG. 37;

FIG. 39 is a schematic view of the stirring vane in a cleaning state;

FIG. 40 is a partial view at C of FIG. 39;

fig. 41 is a perspective view of the bowl pushing assembly.

In the figure: 10. a bowl feeding mechanism; 11. a bowl storage box body; 12. a screw; 13. a lead screw motor; 20. a rice feeding mechanism; 21. a rice storage box body; 22. a rice conveying pipeline; 221. opening the raw rice; 23. a coil spring; 24. a rice feeding motor; 30. a rice washing mechanism; 31. a rice washing barrel; 311. washing rice to enter the mouth; 312. a water inlet for washing rice; 313. a rice washing outlet; 32. a rice washing motor; 33. washing rice leaves; 34. a bottom filter plate; 341. a limiting structure; 35. a notch of the filter plate; 36. rotating the clamping plate; 37. a sealing plate; 38. sealing the motor; 39. a rice filtering groove; 310. a water chute; 320. a rice filtering motor; 40. a porridge cooking mechanism; 41. a porridge cooking barrel; 411. opening the porridge cooking barrel; 412. a water inlet for cooking porridge; 42. heating the base; 43. a barrel cover assembly; 431. a fan-shaped plate; 44. a cover opening motor; 45. stirring and rotating the leaves to cook the porridge; 46. a porridge cooking and stirring motor; 47. a fixed mount; 48. a porridge discharging motor; 50. a porridge distribution mechanism; 51. dividing into porridge barrels; 511. the inlet of the porridge distribution barrel; 512. opening the porridge; 52. a sealing ball; 53. a sealing ball carrier; 54. a cam motor; 55. an eccentric cam; 56. a limiting slide block; 57. stirring rotary leaves for porridge separation; 58. a porridge dividing and stirring motor; 59. a wastewater guide disc; 510. a wastewater guide disc motor; 60. a meat adding mechanism; 61. a meat batching box; 611. a meat discharge port; 62. a meat storage hopper; 63. a hopper floor; 64. a meat discharge baffle; 65. removing meat rotary leaves; 651. a blade; 66. a bevel gear set; 67. a meat rotating blade motor; 68. fixing the side plate; 69. an electric push rod; 610. meat pieces; 70. a powder particle adding mechanism; 71. a powder and particle batching box; 711. a powder discharge hole; 72. a powder motor; 73. a powder baffle; 80. a sauce adding mechanism; 81. a sauce material batching box; 82. a sauce pump assembly; 90. an easily cooked ingredient adding mechanism; 91. an easily cooked ingredient box assembly; 92. moving the loading assembly; 921. a material-carrying bottom shell; 922. a material carrying box; 923. a material loading box slide bar; 924. a synchronous pulley; 925. a material pushing plate; 926. a sliding rod of the material pushing plate; 927. a screw; 100. a secondary boiling mechanism; 101. heating the base for the second time; 102. a first linear module; 103. a second linear module; 104. secondary stirring rotary vane; 105. a secondary stirring motor; 106. a third linear module; 107. a bowl pushing rod; 108. cleaning the shell; 1081. a cleaning chamber; 110. cleaning a pipeline; 120. a conveyor belt; 130. a porridge bowl.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The utility model discloses a congee cooking equipment can realize from the material loading, wash rice, dry in the air rice, cook congee, divide congee, batching and add, the integration system congee process of stirring, unloading are cooked to the secondary.

Referring to fig. 1-2, the congee cooking apparatus comprises: the rice cooking device comprises a bowl feeding mechanism 10, a rice feeding mechanism 20, a rice washing mechanism 30, a porridge cooking mechanism 40, a porridge distributing mechanism 50, a burdening adding device, a secondary cooking mechanism 100, a conveyor belt 120 and a control part. Hereinafter, each mechanism part will be described in detail.

A conveyor 120, see fig. 1-2, is arranged at the bottom of the whole cooking device, which conveyor 120 runs underneath the above-mentioned mechanisms. The porridge bowl 130 for containing porridge is arranged on the conveyor belt 120, and the conveyor belt 120 enables the porridge bowl 130 to move in a production line manner, so that the prepared porridge is contained in the porridge bowl 130 after all the processes are sequentially finished.

Bowl feeding mechanism 10, referring to fig. 3, the bowl feeding mechanism 10 is disposed at the beginning end of the conveyor 120 for placing empty bowls on the conveyor 120. The bowl feeding mechanism 10 comprises a bowl storage box body 11, and empty porridge bowls 130 which are arranged in a stacked manner are contained in the bowl storage box body 11; the porridge bowl comprises a spiral screw 12, wherein the spiral screw 12 is arranged on two sides of a porridge bowl 130, and the porridge bowl 130 is erected on an external thread of the spiral screw 12; the lead screw motor 13, lead screw motor 13 drive screw 12 is rotatory, and the porridge bowl 130 can be the elevating movement, and when the porridge bowl 130 moves down, can fall on the conveyer belt 120.

A rice feeding mechanism 20, referring to fig. 4-5, the rice feeding mechanism 20 comprises a rice storage box 21, and raw rice as porridge cooking raw material is stored in the rice storage box 21; the rice conveying pipeline 22, the rice conveying pipeline 22 is a longitudinal pipeline which is longitudinally arranged, a raw rice opening 221 is arranged at the top end, and the raw rice opening 221 extends to the upper part of the rice washing mechanism 30; the spiral spring 23 is arranged in the rice conveying pipeline 22, the rice feeding motor 24 and the spiral spring 23 are in transmission, and the raw rice in the rice storage box can be rolled into the rice conveying pipeline 22 and fall into the rice washing mechanism 30 by driving the spiral spring 23 to rotate.

The rice washing mechanism 30, the rice washing mechanism 30 is arranged below the raw rice opening 221 of the upper rice mechanism 20, and is used for stirring and washing the raw rice and water. Referring to fig. 6-7, the rice washing mechanism 30 includes a rice washing barrel 31, a rice washing inlet 311 and a rice washing water inlet 312 are provided at the top of the rice washing barrel 31, the rice washing inlet 311 is communicated with a raw rice opening 221 of the rice conveying pipeline 22 for feeding raw rice, the rice washing water inlet 312 is communicated with an external water source for water feeding, and a rice washing outlet 313 is provided at the bottom of the rice washing barrel 31 for outputting cleaned rice; a rice washing rotary vane 33 and a rice washing motor 32, wherein the rice washing rotary vane 33 is arranged in the rice washing barrel 31, the rice washing motor 32 is arranged at the top of the rice washing barrel 31, and the rice washing motor 32 drives the rice washing rotary vane 33 to rotate so as to stir and wash the raw rice and water; referring to fig. 8, the bottom filter plate 34 is spiral, and two ends of the bottom filter plate 34 form filter plate notches 35, and the rice washing rotary vane 33 is movably inserted into the bottom filter plate 34, so that the rice washing rotary vane 33 and the bottom filter plate 34 can rotate relatively; the rotary clamping plate 36, referring to fig. 7, is fixedly connected to the rice washing rotary vane 33, the shape of the rotary clamping plate 36 is suitable for sealing the filter plate gap 35, can completely cover the filter plate gap 35, and is used for sealing or opening the filter plate gap 35, when the rice washing rotary vane 33 drives the rotary clamping plate 36 to rotate in different directions, the rotary clamping plate 36 can be switched between the positions for sealing the filter plate gap 35 and far away from the filter plate gap 35; sealing assembly, referring to fig. 11, the sealing assembly includes a sealing plate 37 and a sealing motor 38, the sealing plate 37 is shaped to seal the rice washing outlet 313, the sealing plate 37 is hinged in the rice washing outlet 313, and the sealing motor 38 drives the sealing plate 37 to rotate, so that the sealing plate 37 seals the rice washing outlet 313 or opens the rice washing outlet 313.

The working principle of rice washing is explained in detail as follows: because the rice washing rotary vane 33 and the rotary clamping plate 36 are relatively fixed, the rotary vane clamping plate and the bottom filter plate 34 can also relatively rotate. Referring to fig. 9, when the rice washing barrel 31 is in a rice washing state, the rice washing rotary vane 33 and the rotary catch plate 36 rotate around the arrow direction shown in fig. 9, the rotary catch plate 36 is tightly pressed against the filter plate notches 35, so that the rice does not fall from between the filter plate notches 35, and the rotation of the rice washing rotary vane 33 can stir and wash the rice; referring to fig. 10, when the rice washing tub 31 finishes washing rice and discharges rice, the rice washing rotary vane 33 and the rotary catch plate 36 rotate in the direction of the arrow shown in the drawing, and the rotary catch plate 36 is separated from the filter plate notch 35 so that the rice can pass through the filter plate notch 35.

Referring to fig. 8, the bottom filter plate 34 is further provided with a limiting structure 341, and the limiting structure 341 is an "L" -shaped opening, and when the rotary clamping plate 36 rotates to a certain angle around the direction shown in fig. 10, the rotary clamping plate 36 will be pressed against the limiting structure 341, so as to drive the bottom filter plate 34 to rotate. At this time, the filter plate notch 35 is opened, and the rotation of the bottom filter plate 34 causes rice to fall from the filter plate notch 35 to the rice washing outlet 313. The limit structure 341 is configured to control the rotation angle of the bottom filter plate 34 within a certain range.

Referring to fig. 6, the rice washing mechanism 30 further includes a rice filtering tank 39, the rice filtering tank 39 is disposed below the rice washing outlet 313 for filtering the washed rice; the water chute 310 and the rice filtering chute 39 are hinged in the water chute 310; the rice filtering motor 320 is arranged on the side of the water guide groove 310, and drives the rice filtering groove 39 to rotate, so that the rice filtering groove 39 slightly shakes, and the water is filtered in an accelerated manner. The filtered water can enter the water guide shell and is guided by the water guide shell to be discharged.

The working process of the rice washing mechanism 30 is as follows: the sealing motor 38 drives the sealing plate 37 to rotate to close the rice washing outlet 313; the rice washing motor 32 drives the rice washing rotary vane 33 to rotate, the rice washing rotary vane 33 drives the rotary clamping plate 36 to rotate, the rotary clamping plate 36 is tightly propped against the notch 35 of the filter plate, and the rice washing rotary vane 33 simultaneously stirs and elutriates rice in the rice washing barrel 31; after rice washing is finished, the sealing motor 38 drives the sealing plate 37 to rotate ninety degrees, so that the opening of the rice washing is in an open state, the rice washing motor 32 rotates reversely to drive the rice washing rotary vane 33 and the rotary clamping plate 36 to rotate in opposite directions, and the rotary clamping plate 36 is separated from the filter plate notch 35 and is tightly propped against the limiting structure 341 so that the filter plate notch 35 is opened; the rotation of the rotary clamping plate 36, the rice washing rotary vane 33 and the bottom filter plate 34 enables rice to fall from the filter plate gap 35, the sealing motor 38 drives the sealing plate 37 to rotate, so that a rice washing opening is opened, and the rice falls to a rice filtering groove 39 through the rice washing opening; the rice filtering motor 320 drives the rice filtering groove 39 to rotate, so that the waste water is thrown or flows into the water guide inlet from the filtering holes and flows out from the water guide outlet.

Referring to fig. 12-13, the porridge cooking mechanism 40 is disposed below the rice filtering tank 39 of the rice washing mechanism 30, after the rice filtering tank 39 is drained, the rice filtering motor 320 drives the rice filtering tank 39 to rotate to turn over, and the clean rice can be poured into the porridge cooking mechanism 40 for cooking. The porridge cooking mechanism 40 comprises a porridge cooking barrel 41, the porridge cooking barrel 41 is of a cylindrical structure and is used for containing raw material rice and water, and the porridge cooking barrel 41 comprises a round porridge cooking barrel opening 411 and a porridge cooking water inlet 412 communicated with an external water source; the heating base 42 is arranged at the bottom of the porridge cooking barrel 41, and is used for cooking porridge, and a heating base element commonly used in the field is adopted in the embodiment; a lid assembly 43 and a lid opening motor 44, referring to fig. 14-15, the lid assembly 43 is disposed at an opening 411 of the porridge cooking barrel, and the lid assembly 43 is disposed at the opening 411 of the porridge cooking barrel and is used for controlling the size of the opening 411 of the porridge cooking barrel; the barrel cover assembly 43 is of a folding fan-shaped opening and closing structure and comprises a plurality of fan-shaped plates 431 hinged on the same shaft hole, and the fan-shaped plates 431 are arranged in a stacked manner in the vertical direction; the output end of the cover opening motor 44 is positioned in the shaft hole and drives the fan-shaped plates 431 to rotate, the opening and closing of the fan-shaped plates 431 can change the angle of the unfolded barrel cover, and the opening 411 of the porridge cooking barrel can be sealed when the barrel cover assembly 43 is completely unfolded.

The operation of the lid assembly 43 will now be described in detail: referring to fig. 14, when the opening 411 of the porridge cooking barrel needs to be in a sealed state, the cover opening motor 44 drives the fan-shaped plate 431 to be completely unfolded; in this embodiment, it is preferable that the number of the fan-shaped plates 431 is four, the central angle of each fan-shaped plate is ninety degrees, and the opening 411 of the porridge cooking barrel is circular, so that when the fan-shaped plates 431 are completely unfolded, the lid assembly 43 is circular, and the opening 411 of the porridge cooking barrel can be sealed. Referring to fig. 15, when the opening 411 of the congee cooking barrel needs to be opened to the maximum, the uncovering motor 44 drives the fan-shaped plates 431 to be completely folded, and the fan-shaped plates 431 are arranged in a stacked manner, so that the four fan-shaped plates 431 are stacked in order in the vertical direction, and the opening 411 of the congee cooking barrel reaches the maximum. It is easy to understand that the size of the opening 411 of the porridge cooking barrel can be any angle within the range of the two situations, and the size is determined according to actual requirements.

The porridge cooking mechanism 40 also comprises a porridge cooking stirring rotary vane 45 and a porridge cooking stirring motor 46; referring to fig. 13, the porridge cooking stirring vane 45 is disposed in the porridge cooking barrel 41, and the porridge cooking stirring motor 46 drives the porridge cooking stirring vane 45 to rotate, so that the porridge in the porridge cooking barrel 41 is sufficiently stirred. During the cooking process, the porridge is properly stirred, so that the rice and the water are uniformly mixed, and the taste of the porridge is softer. The porridge cooking mechanism 40 further comprises a fixing frame 47 and a porridge discharging motor 48, referring to fig. 16, the porridge cooking barrel 41 is hinged on two sides of the fixing frame 47, and the porridge discharging motor 48 drives the porridge cooking barrel 41 to rotate around the fixing frame 47, so that the opening 411 of the porridge cooking barrel faces downwards and cooked porridge is poured out to the porridge distributing mechanism 50.

The working process of the porridge cooking mechanism 40 is as follows: after raw rice and water are added into the porridge cooking barrel 41, the cover opening motor 44 drives the fan-shaped plate 431 to rotate, and the barrel cover assembly 43 is unfolded to seal the opening 411 of the porridge cooking barrel; heating the base 42 to heat and cook the porridge; in the cooking process, the cooking stirring motor drives the cooking stirring rotary vane to rotate, and porridge is properly stirred; after cooking, the cover opening motor 44 rotates reversely to drive the fan-shaped plate 431 to rotate reversely, and the barrel cover assembly 43 is folded to open the opening 411 of the porridge cooking barrel; the porridge discharging motor 48 drives the porridge cooking barrel 41 to rotate around the fixing frame 47, the opening 411 of the porridge cooking barrel faces downwards, and cooked porridge is poured out of an external container.

The porridge distribution mechanism 50, referring to fig. 17-18, is arranged below the porridge cooking mechanism 40, and is used for quantitatively distributing porridge. The porridge distribution mechanism 50 comprises a porridge distribution barrel 51, cooked porridge can be poured into the porridge distribution barrel 51, a round porridge distribution opening 512 is arranged at the bottom of the porridge distribution barrel 51, and a porridge distribution barrel inlet 511 for entering porridge is arranged at the top of the porridge distribution barrel; referring to fig. 19, the diameter of the sealing ball 52 is not smaller than the diameter of the congee separating opening 512, the sealing ball 52 is movably arranged in the congee separating opening 512, and the sealing ball 52 can be switched between a state of closing the congee separating opening 512 and a state of opening the congee separating opening 512; a sealing ball bracket 53 arranged at the bottom of the sealing ball 52 for lifting the sealing ball 52 to enable the sealing ball 52 to move in the porridge distribution opening 512; referring to fig. 20-21, the cam assembly includes a cam motor 54 as a cam driving mechanism, an eccentric cam 55 and a limiting slider 56, the cam motor 54 drives the eccentric cam 55 to rotate, one side of the limiting slider 56 is always pressed against the eccentric cam 55 under the action of gravity, the other side of the limiting slider 56 is fixedly connected with the sealing ball bracket 53, and the eccentric cam 55 can drive the limiting slider 56 and the sealing ball bracket 53 to reciprocate when rotating, so that the sealing ball 52 is lifted in the porridge dispensing opening 512, and the porridge dispensing opening 512 is closed or opened. Preferably, the cam members are provided in two sets, one on each side of the congee dispensing opening 512, in order to provide a more stable drive of the sealing ball 52.

The working principle of the porridge is explained in detail as follows: the cam motor 54 drives the eccentric cam 55 to rotate, and since the eccentric cam 55 is always pressed against the eccentric cam 55, the rotation of the eccentric cam 55 can make the limit slider 56 reciprocate. The sealing ball bracket 53 fixed on the limit slide block 56 also reciprocates along with the limit slide block, so that the sealing ball 52 does lifting motion in the porridge distribution opening 512, and the porridge distribution opening 512 is closed or opened. Referring to fig. 19, when the eccentric cam 55 drives the limit slider 56 to jack up, the sealing ball 52 is jacked up by the sealing ball bracket 53, and a gap is formed between the sealing ball 52 and the porridge separation opening 512, so that porridge flows out from the gap; when the eccentric cam 55 drives the limiting slide block 56 to descend, the sealing ball bracket 53 drives the sealing ball 52 to descend, and the sealing ball 52 completely seals the porridge separating opening 512, so that porridge cannot flow out. When the eccentric cam 55 finishes one porridge dividing period every time the eccentric cam goes through one reciprocating stroke, porridge of a corresponding amount can be obtained in the porridge bowl 130; therefore, the eccentric cam 55 with proper reciprocating stroke can be matched with the capacity of the porridge bowl 130, so that the porridge in the porridge bowl 130 can be in a full state every time the porridge is divided.

The porridge distribution mechanism 50 also comprises a porridge distribution stirring rotary vane 57 and a porridge distribution stirring driving mechanism, wherein the porridge distribution stirring mechanism is a porridge distribution stirring motor 58. Referring to fig. 19, the porridge separation stirring vane 57 is disposed in the porridge separation barrel 51, the porridge separation motor is fixedly disposed at the top of the porridge separation barrel 51, and the porridge separation stirring motor 58 drives the porridge separation stirring vane 651 to rotate. The porridge is properly stirred in the porridge dividing process, so that the viscosity degree of the divided porridge is more uniform.

The porridge distribution mechanism 50 further comprises a waste water guide disc 59 and a waste water guide disc 59 driving mechanism, wherein the waste water guide disc 59 driving mechanism is a waste water guide disc motor 510. Referring to fig. 22, the waste water guide disc 59 is hinged outside the porridge separation barrel 51 and positioned below the porridge separation opening 512; the waste water guide disc motor 510 is arranged at the side part of the waste water guide disc 59 and drives the waste water guide disc 59 to rotate around the porridge distribution barrel 51. The function of the waste water guide disc 59 is as follows: when the porridge distribution opening 512 is in a closed state, if a small amount of porridge water seeps from the porridge distribution opening 512, the porridge water directly drops on the conveyor belt 120, and the conveyor belt 120 is damaged. When the porridge distribution opening 512 is in a closed state, the waste water guide disc 59 is blocked between the porridge distribution opening 512 and the porridge bowl 130 and can be used for containing a small amount of permeated porridge water, so that the porridge water is prevented from dropping on the conveyor belt 120; before the porridge distribution mechanism 50 is ready to distribute porridge, the wastewater guide disc motor 510 drives the wastewater guide disc 59 to rotate, so that porridge in the porridge distribution opening 512 can fall into the porridge bowl 130, and porridge water stored in the wastewater guide disc 59 is drained away.

The working process of the porridge distribution mechanism 50 is as follows: the conveyor belt 120 conveys the empty bowls to the lower part of the porridge distribution mechanism 50, and the waste water guide disc motor 510 drives the waste water guide disc 59 to rotate, so that the porridge distribution opening 512 faces the porridge bowls 130; the porridge dividing stirring motor 58 drives the porridge dividing stirring rotary vane 57 to rotate, so that the porridge in the porridge dividing barrel 51 is fully stirred; the cam motor 54 drives the eccentric cam 55 to rotate, so that the limiting slide block 56 drives the sealing ball bracket 53 to reciprocate, the sealing ball bracket 53 jacks up the sealing ball 52 firstly, the porridge dividing opening 512 is opened, and porridge flows out of a gap between the porridge dividing opening 512 and the sealing ball 52 into the porridge bowl 130; the eccentric cam 55 continuously drives the limiting slide block 56 and the sealing ball bracket 53 to move downwards, so that the sealing ball 52 descends and seals the porridge distribution opening 512, and porridge distribution of the porridge bowl 130 is completed. The porridge bowl 130 is conveyed away by the conveyor belt 120, the waste water guide disc 59 is reset, and the next porridge bowl 130 is conveyed to the lower part of the porridge distribution mechanism 50 to wait for the next working period of porridge distribution.

The batching adds the device, and the batching adds the device and includes that meat adds mechanism 60, powder adds mechanism 70, sauce material add mechanism 80 and ripe batching and add mechanism 90.

Referring to fig. 23 and 28, the meat adding mechanism 60 is disposed at a side of the porridge dividing mechanism 50, and includes: a meat discharge port 611 is arranged below the meat batching box 61; the meat storage hopper 62 is used for loading meat and is horizontally inserted into the meat batching box 61, the bottom of the meat storage hopper 62 is a hopper bottom plate 63, the hopper bottom plate 63 is movably inserted into the bottom of the meat storage hopper 62, and the meat can leave the meat storage hopper 62 and enter the meat batching box 61 by drawing out the hopper bottom plate 63; the lower meat baffle 64, referring to fig. 25, the lower meat baffle 64 is hinged at the meat outlet 611, and the lower meat baffle 64 is arc-shaped and is adapted to seal the meat outlet 611; referring to fig. 24-25, the rotary vane assembly includes a lower meat rotary vane 65, a bevel gear set 66 and a lower meat rotary vane motor 67, the lower meat rotary vane 65 is disposed below the lower meat baffle 64, and the lower meat rotary vane motor 67 drives the lower meat rotary vane 65 to rotate through the transmission of the bevel gear set 66, so that the lower meat rotary vane 65 drives the lower meat baffle 64 to move, and the lower meat baffle 64 seals or opens the meat discharge hole 611. Specifically, the lower meat rotary vane 65 includes a plurality of equal-length blades 651, the blades 651 are uniformly arranged in a circumferential manner, and the radian of the lower meat baffle 64 is equal to the radian of a circle using the blades 651 as a radius, so that the rotating track of the blades 651 is consistent with the radian of the lower meat baffle 64.

The specific working principle of meat is as follows: referring to fig. 26 and 27, the lower meat rotary vane motor 67 drives the lower meat rotary vane 65 to rotate, and when one of the vanes 651 of the lower meat rotary vane 65 lifts up the lower meat baffle 64, the meat outlet 611 is closed; the blade 651 continues to rotate and separate from the lower meat retainer 64, and at this time, the lower meat retainer 64 becomes a drooping state only by its own weight, and at this time, the meat outlet 611 is opened, and the meat can fall out until the next blade 651 jacks up the lower meat retainer 64 again. Therefore, each blade 651 performs one lift-and-separate operation of the lower meat retainer 64, so that the meat outlet 611 can be opened and closed at one time.

This blanking mechanism also prevents jamming of the meat chunk 610. Specifically, referring to fig. 26, if the meat block 610 sticks to the meat outlet 611, one of the blades 651 of the lower meat rotating blade 65 lifts the lower meat retainer 64, and the lower meat retainer 64 pulls the meat block 610 and closes the meat outlet 611 at the same time; referring to fig. 27, the blade 651 continues to rotate and separate from the lower meat retainer 64, and the lower meat retainer 64 becomes drooping at this time, and the meat outlet 611 is opened again and the lower meat is discharged, and the lower blade 651 directly lifts up the lower meat retainer 64 again.

The meat adding mechanism 60 further comprises a fixed side plate 68 and an electric push rod 69. Referring to fig. 28, the fixed side plate 68 is vertically inserted into the side surface of the meat storage hopper 62, and the electric push rod 69 is disposed at the top of the fixed side plate 68 and drives the fixed side plate 68 to move up and down. Since the meat storage hopper 62 is horizontally inserted into the meat batching box 61 and is movable in the horizontal direction, the fixing side plate 68 is inserted into the side surface of the meat storage hopper 62, so that the meat storage hopper 62 can be fixed in the horizontal direction.

The powder adding mechanism 70, the powder adding mechanism 70 is used for adding powder seasoning such as salt, sugar, pepper powder and the like into the porridge. Referring to fig. 29-30, the powder adding mechanism 70 includes a powder mixing box 71, the powder mixing box 71 is filled with powder seasoning, and the bottom of the powder mixing box is provided with a powder discharging port 711; the powder and particle outlet 711 is provided with a powder and particle motor 72 and a powder and particle baffle 73, the powder and particle baffle 73 is horizontally and movably arranged at the powder and particle outlet 711, and the powder and particle motor 72 can enable the powder and particle baffle 73 to horizontally move left and right by matching with a mechanism which is commonly used in the field and is used for converting rotary motion into linear motion, so that the powder and particle outlet 711 is opened or closed. In this embodiment, the powder motor 72 may be used in conjunction with a cam structure to drive the powder baffle 73 to reciprocate linearly, so as to open or close the powder outlet 711; since this transmission method is a common technical means in the art, it is not described herein in detail.

Sauce adding mechanism 80, sauce adding mechanism 80 is used for adding liquid sauce, such as oil, soy sauce, etc. into porridge. Referring to fig. 31-32, the sauce adding mechanism 80 comprises a sauce batching box 81, the sauce batching box 81 is filled with liquid sauce, and the bottom of the sauce batching box is provided with a sauce discharging hole; sauce material pump package 82, sauce material pump package 82 set up in sauce material batching box 81, take out the sauce material to the incasement outside through the pump body and supporting pipeline, make it fall into in the congee article. This transmission is a common technical means in the art and therefore will not be described in detail here.

The easily cooked ingredient adding mechanism 90 is used for adding easily cooked ingredients such as peanuts, shallots, caraway and the like into the porridge. Referring to fig. 33, the easy ingredient adding mechanism 90 includes an easy ingredient box assembly 91 and a movable carrier assembly 92, wherein the structures of the easy ingredient box assembly 91 and the meat adding mechanism 60 are identical, and therefore the easy ingredient box assembly 91 will not be described. The mobile carrier assembly 92 is used to collect various ingredients that are readily cooked and deliver them into the porridge product.

The movable loading assembly 92 is disposed below the easy-cooking batching box assembly 91, and referring to fig. 34-35, the movable loading assembly 92 comprises: a material carrying box sliding rod 923 is arranged on the material carrying bottom shell 921; the material carrying box 922 is movably arranged on the material carrying box sliding rod 923 and can move along the direction of the material carrying box sliding rod 923; the synchronous belt wheel 924 is arranged on the material carrying bottom shell 921, and the material carrying box 922 is fixedly connected with a synchronous belt, so that the synchronous belt can drive the material carrying box 922 to move along the direction of the material carrying box sliding rod 923 during transmission; the material pushing plate 925 is used for pushing the ingredients easy to cook in the material pushing box, the material pushing plate 925 is movably arranged in the material carrying box 922 through a material pushing plate sliding rod 926, and the material pushing motor and the material pushing screw 927 drive the material pushing plate 925 to move along the material pushing plate sliding rod 926 so as to push the ingredients in the material carrying box 922 away. Because the motor can be matched with the screw 927 to convert the rotation motion of the motor into the linear motion of the material pushing plate 925 loaded on the screw 927, the mechanism is a simple transmission mechanism commonly used in the field, and therefore, the description is omitted.

The easy-to-cook ingredient adding mechanism 90 has the following working flow: the synchronous belt wheel 924 drives the material carrying box 922 to move along the material carrying box sliding rod 923, the material carrying box 922 moves to the lower part of the corresponding easy-cooked dosing box, and the easy-cooked dosing box is opened to enable the dosing to fall into the material carrying box 922; the carrier 922 moves back and forth until all of the required ingredient types are collected; the pushing motor is matched with the pushing screw 927 to enable the pushing plate 925 to move along the direction of the pushing plate sliding rod 926, and the pushing plate 925 can push the ingredients easy to cook of the material carrying box 922 into the porridge bowl 130 on the conveying belt 120 to complete addition of the ingredients easy to cook.

The secondary cooking mechanism 100 is used for performing secondary cooking and stirring on porridge, so that the quality of the porridge can be better. Referring to fig. 36, the secondary boiling mechanism 100 includes a secondary heating base 101, the secondary heating base 101 is used for secondary heating of the porridge bowl 130, wherein the secondary heating base 101 is a secondary heating base 101 element commonly used in the field; the first linear module 102 and the second linear module 103 are combined for use, wherein the first linear module 102 is longitudinally and vertically arranged on the side part of the secondary heating base 101, and the second linear module 103 is transversely arranged on a sliding block of the first linear module 102 and is driven by the first linear module 102, namely the first linear module can drive the second linear module 103 to move in the vertical direction; a secondary stirring rotary vane 104 and a secondary stirring motor 105, referring to fig. 38 and 40, the secondary stirring rotary vane 104 is fixedly arranged on a slide block of the second linear module 103 and is driven by the second linear module 103, that is, the second linear module 103 can drive the secondary stirring rotary vane 104 to move in the horizontal direction, and the secondary stirring motor 105 drives the secondary stirring rotary vane 104 to rotate; referring to fig. 41, the bowl pushing assembly includes a third linear module 106 and a bowl pushing rod 107, the bowl pushing rod 107 is in an L-shaped structure so as to push and pull the porridge bowl 130, the third linear module 106 is horizontally disposed below the first linear module 102, and the bowl pushing rod 107 is fixedly connected to a sliding block of the third linear module 106. The third linear module 106 drives the bowl pushing rod 107 to do linear reciprocating motion, so as to push and pull the porridge bowl 130 onto the secondary heating base 101.

The secondary boiling mechanism 100 further comprises a cleaning shell 108, referring to fig. 39-40, the cleaning shell 108 is fixedly arranged on the side portion of the secondary heating base 101, and a cleaning cavity 1081 for containing clean water is arranged on the cleaning shell 108. After porridge is cooked and stirred, the first linear module 102 and the second linear module 103 drive the stirring rotary vane in a combined mode to enable the stirring rotary vane to enter the cleaning cavity 1081, and the secondary stirring motor 105 drives the secondary stirring rotary vane 104 to rotate in clear water, so that the cleaning work of the secondary stirring rotary vane 104 can be achieved.

The working process of the secondary boiling mechanism 100 is as follows: the porridge bowls 130 are sequentially conveyed to the bowl pushing rod 107 by the conveyor belt 120, the bowl pushing rod 107 is driven to move by the third linear module 106, and the porridge bowls 130 are pushed and pulled to the secondary heating base 101 by the bowl pushing rod 107, so that the bowl feeding process is completed; the bowl pushing rod 107 is reset, and the porridge bowl 130 is heated by the secondary heating base 101; referring to fig. 37-38, the first linear module 102 drives the second linear module 103 to move, and the second linear module 103 drives the second stirring vane 104 to move, so that the second stirring vane 104 enters the porridge bowl 130; the secondary stirring motor 105 drives the secondary stirring rotary vane 104 to rotate, so that the secondary stirring rotary vane 104 can stir porridge; referring to fig. 39-40, after the stirring is completed, the first linear module 102 and the second linear module 103 drive the secondary stirring rotary vane 104 to move, so that the secondary stirring rotary vane 104 enters the cleaning cavity 1081, and the secondary stirring motor 105 rotates the secondary stirring rotary vane 104 in clear water, so as to clean the secondary stirring rotary vane 104; the bowl pushing rod 107 pushes and pulls the porridge bowl 130 to enter the other end of the conveyor belt 120, and the conveyor belt 120 conveys the porridge bowl 130 to finish the bowl discharging process.

Referring to fig. 1-2, the cleaning pipe 110 is connected to the rice washing mechanism 30, the porridge distribution mechanism 50, the porridge cooking mechanism 40, the ingredient adding mechanism and the secondary cooking mechanism 100, and provides water for the processes and cleaning after cooking.

It should be noted that the utility model discloses still include the control part, the control part is used for controlling above-mentioned each driving motor or all the other drive assembly operation, makes each mechanism accomplish separately action and collaborative work. The above mentioned "rice washing motor", "rice filtering motor", "porridge discharging motor", etc. are only distinguished by their names through their functions, and are not specific types of motors, and all the driving components capable of realizing equivalent actions can be used instead of only using the driving components mentioned in this embodiment. The control part adopts a conventional control mode to enable the mechanism to realize the actions, and the control part can be realized by a person skilled in the art on a simple 'control-feedback' level; the utility model discloses the key point of protection lies in the physical mechanical structure of cooking equipment, therefore detailed control method is not repeated in this embodiment.

In addition, there are some auxiliary components commonly used in the field, such as connecting pieces, fastening pieces, adapters, etc., which can be derived from the drawings without any doubt and are not described in detail herein.

The following is a detailed description of the overall process of the congee cooking device: a bowl loading process, in which a screw motor 13 in a bowl storage box body 11 drives a screw 12 to rotate, so that the porridge bowl 130 descends and falls on a conveyor belt 120; a rice feeding procedure, in which a rice feeding motor 24 drives a spiral spring 23 in a rice conveying pipeline 22 to rotate, so that raw rice in a rice storage box is driven into the rice conveying pipeline 22 and falls to a rice washing mechanism 30; a rice washing procedure, wherein a rice washing motor 32 drives a rice washing rotary vane 33 and a rotary clamping plate 36 to rotate, the rotary clamping plate 36 is tightly propped against a filter plate notch 35 to seal the filter plate notch, the rice washing rotary vane 33 rotates to wash the rice, then the rice washing motor 32 rotates reversely, the rice washing rotary vane 33 and the rotary clamping plate 36 rotate reversely, the rotary clamping plate 36 is separated from the filter plate notch 35 and is tightly propped against a limiting structure 341 of a bottom filter plate 34, the filter plate notch 35 is opened to enable the rice to fall off, a sealing motor 38 drives a sealing plate 37 to rotate and open a rice washing opening, and the rice falls into a rice filtering groove 39 immediately; a rice airing procedure, wherein the rice filtering groove 39 filters and dries the clean rice, the rice filtering motor 320 drives the rice filtering groove 39 to rotate, the rice filtering groove 39 rotates, and the clean rice falls into the porridge cooking mechanism 40; in the porridge cooking process, the cover opening motor 44 drives the cover component 43 to close, so that the opening 411 of the porridge cooking barrel is opened, clean rice enters the porridge cooking barrel 41 through the opening 411 of the porridge cooking barrel, water is introduced into the water inlet at the same time, the heating base 42 heats the rice and the water, the porridge cooking stirring rotary vane 45 rotates to stir porridge, and after cooking is finished, the porridge discharging motor 48 drives the porridge cooking barrel 41 to rotate around the fixing frame 47, so that the cooked porridge is poured into the porridge dividing barrel 51; the waste water guide disc 59 rotates to enable the porridge distribution opening 512 to be opposite to the porridge bowl 130, the cam motor 54 drives the eccentric cam 55 to rotate, the limiting slide block 56 and the sealing ball bracket 53 do reciprocating motion, porridge flows out from the porridge distribution opening 512 when the sealing ball 52 rises (at the moment, the porridge bowl 130 is conveyed to the position below the porridge distribution opening 512 by the conveyor belt 120), and the porridge distribution opening 512 is closed when the sealing ball 52 descends; a powder particle adding process, wherein the powder particle baffle plate 73 moves to open the powder particle discharge hole 711, and the powder particle ingredients fall into the porridge bowl 130 below; a meat adding process, in which the lower meat rotary vane 65 rotates to circulate the state that the lower meat baffle plate 64 opens the meat discharge hole 611 and closes the discharge hole, and the meat falls into the porridge bowl 130 below; a sauce adding procedure, namely, a sauce pump assembly 82 pumps out the porridge to the porridge bowl 130; in the secondary cooking process, the bowl pushing rod 107 pushes and pulls the porridge bowl 130 to the secondary heating base 101 for heating, the first linear module 102 and the second linear module 103 drive the secondary stirring rotary vane 104 in a composite mode, so that the secondary stirring rotary vane 104 enters the porridge bowl 130 for stirring, and the bowl pushing rod 107 pushes the porridge bowl 130 to the conveyor belt 120 after stirring; and in the step of adding the easily cooked ingredients, the material carrying box 922 moves along the material carrying box sliding rod 923 to sequentially collect the easily cooked ingredients, and then the material pushing plate 925 moves along the material pushing plate sliding rod 926 to push the easily cooked ingredients in the material pushing box into the porridge bowls 130 on the conveyor belt 120. Thus, the whole process of porridge making is completed.

Through the detailed explanation to above-mentioned embodiment, can understand, the utility model discloses an go up bowl, go up rice, wash rice, dry in the air the rice, boil out, divide congee, batching to add, the full process preparation of secondary boil out, make the congee no longer need the people hand to hold congee and batching to add after the congee is boiled out, make the degree of automation of system congee higher, preparation efficiency is higher, it is more convenient to use.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (17)

1. A congee cooking apparatus, characterized in that it comprises:

the rice feeding mechanism is used for conveying raw rice;

the porridge cooking mechanism is used for cooking raw rice and water;

the porridge distribution mechanism is arranged below the porridge cooking mechanism and comprises a porridge distribution barrel, a sealing ball bracket and a cam assembly, wherein a round porridge distribution opening is formed in the bottom of the porridge distribution barrel, the diameter of the sealing ball is not smaller than that of the porridge distribution opening, the sealing ball is movably arranged in the porridge distribution opening, the sealing ball bracket is arranged at the bottom of the sealing ball to lift the sealing ball, and the sealing ball bracket is driven to lift by the cam assembly arranged on the side part of the porridge distribution opening so as to enable the sealing ball to be switched between a state of closing the porridge distribution opening and a state of opening the porridge distribution opening;

the porridge cooking device comprises a conveying belt, a porridge bowl and a heating device, wherein the conveying belt is arranged at the bottom of the porridge cooking device, and the porridge bowl is placed on the conveying belt which conveys the porridge bowl;

and the control part controls the actions of all the mechanisms and works cooperatively.

2. The congee cooking device of claim 1, wherein the cam assembly comprises a cam motor, an eccentric cam and a limit slider; the cam motor drives the eccentric cam to rotate, one side of the limiting sliding block is tightly propped against the eccentric cam, and the other side of the limiting sliding block is fixedly connected with the sealing ball bracket.

3. The porridge cooking apparatus according to claim 1, wherein the porridge distribution mechanism further comprises a porridge distribution stirring vane and a porridge distribution stirring motor; the porridge dividing stirring rotary vane is arranged in the porridge dividing barrel, and the porridge dividing stirring motor drives the porridge dividing stirring rotary vane to rotate.

4. The porridge cooking apparatus according to claim 1, wherein the porridge dispensing mechanism further comprises a water dispensing guide disc and a water dispensing guide disc motor; the water diversion guide disc is hinged outside the porridge diversion barrel, and the water diversion guide disc is driven by the water diversion guide disc motor to rotate around the porridge diversion barrel.

5. The porridge cooking apparatus of claim 1, wherein the rice feeding mechanism is located at a starting end of the conveyor belt, and comprises a rice storage box, a rice feeding motor, a coil spring and a rice conveying pipe; raw rice is stored in the rice storage box; the rice conveying pipeline is longitudinally arranged in the rice storage box body, and a raw rice outlet is formed in the top end of the rice conveying pipeline; the spiral spring is arranged in the rice conveying pipeline; the rice feeding motor is in transmission with the spiral spring so as to drive the spiral spring to rotate.

6. The congee cooking device according to claim 1, further comprising a rice washing mechanism; the rice washing mechanism is arranged below the rice feeding mechanism and comprises a rice washing barrel, a rice washing rotary vane, a rice washing motor and a sealing assembly; a rice washing inlet and a rice washing water inlet are formed in the top of the rice washing barrel, the rice washing inlet is communicated with the rice feeding mechanism, the rice washing water inlet is communicated with an external water source, and a rice washing outlet is formed in the bottom of the rice washing barrel; the rice washing rotary vane is arranged in the rice washing barrel and is driven to rotate by the rice washing motor; the sealing assembly is arranged in the rice washing outlet and comprises a sealing plate and a sealing motor, the sealing plate is suitable for sealing the rice washing outlet, the sealing plate is hinged in the rice washing outlet, and the sealing motor drives the sealing plate to rotate, so that the sealing plate is switched between a state of sealing the rice washing outlet and a state of opening the rice washing outlet.

7. The porridge cooking device according to claim 6, wherein the rice washing mechanism further comprises a bottom filter plate arranged at the bottom of the rice washing barrel, the bottom filter plate is spiral, gaps are formed at two ends of the bottom filter plate, and the rice washing rotary vane is movably inserted into the bottom filter plate; the rice washing rotary vane is also fixedly provided with a rotary clamping plate, and the rotary clamping plate is suitable for sealing the notch of the filter plate; the rice washing rotary vane drives the rotary clamping plate to rotate, so that the rotary clamping plate is switched between a position for closing the notch of the filter plate and a position far away from the notch of the filter plate.

8. The porridge cooking apparatus of claim 6, wherein the rice washing mechanism further comprises a rice straining tank, a rice straining motor and a water chute; the rice filtering groove is arranged below the rice washing outlet and is hinged in the water chute; the rice filtering motor is in transmission connection with the rice filtering groove to drive the rice filtering groove to rotate.

9. The congee cooking device of claim 1, wherein the congee cooking mechanism comprises a congee cooking barrel, a heating base, a barrel cover assembly and a cover opening motor; the porridge cooking barrel comprises an opening of the porridge cooking barrel; the heating base is arranged at the bottom of the porridge cooking barrel; the barrel cover assembly is arranged at the opening of the porridge cooking barrel, is of a folding fan-shaped structure and comprises a plurality of fan-shaped plates hinged on the same shaft hole, and the fan-shaped plates are arranged in a stacked manner; the output end of the cover opening motor is positioned in the shaft hole and drives the fan-shaped plate to rotate so as to change the unfolding angle of the barrel cover component; the opening of the porridge cooking barrel is sealed when the barrel cover component is completely unfolded.

10. The congee cooking device of claim 9, wherein the congee cooking mechanism further comprises a mount and a congee discharging motor; the fixing frame is of a U-shaped structure, the porridge cooking barrel is hinged to the fixing frame, and the lower porridge motor drives the porridge cooking barrel to rotate around the fixing frame.

11. The congee cooking device according to claim 1, further comprising ingredient adding means; the batching adds the device and adds the mechanism including meat, meat adds the mechanism and includes: the meat mixing box, the lower meat baffle plate and the rotary vane component; the meat batching box comprises a meat discharge port; the lower meat baffle is hinged to the meat discharge port and is suitable for sealing the meat discharge port; the rotary vane component comprises a lower meat rotary vane and a lower meat rotary vane motor, the lower meat rotary vane is arranged below the lower meat baffle, the lower meat rotary vane motor drives the lower meat rotary vane to rotate and drive the lower meat baffle is sealed, and the discharge port is opened and switched between positions of the discharge port.

12. The congee cooking device of claim 11, wherein said meat adding mechanism further comprises a meat storage hopper; the meat storage hopper is horizontally inserted into the meat batching box; the meat storage hopper also comprises a hopper bottom plate, and the hopper bottom plate is movably inserted at the bottom of the meat storage hopper.

13. The congee cooking device of claim 12, wherein said meat adding mechanism further comprises a stationary side plate and an electrically powered push rod; the fixed side plate is vertically inserted into the side face of the meat storage hopper, and the electric push rod is arranged at the top of the fixed side plate and drives the fixed side plate to do lifting motion.

14. The congee cooking device of claim 1, further comprising a secondary cooking mechanism; the secondary boiling mechanism comprises a first linear module, a second linear module, a secondary stirring rotary vane, a secondary stirring motor, a bowl pushing assembly and a heating base; the first linear module is longitudinally arranged, and the second linear module is transversely arranged on the first linear module and driven by the first linear module; the secondary stirring rotary vane is arranged on the second linear module and is driven by the second linear module; the secondary stirring motor is arranged at the top of the secondary stirring rotary vane and drives the secondary stirring rotary vane to rotate; the porridge bowl is driven to the heating base by the bowl pushing assembly.

15. The congee cooking apparatus of claim 14, wherein the bowl pushing assembly comprises a third linear die set and a bowl pushing bar; the bowl pushing rod is of an L-shaped structure and is connected with a third linear module, and the third linear module drives the bowl pushing rod to do linear reciprocating motion so as to push the porridge bowl to the heating base.

16. The porridge cooking apparatus of claim 14, wherein the secondary cooking mechanism further comprises a washing housing disposed at a side portion of the heating base, the washing housing having a washing chamber disposed thereon for containing a washing liquid.

17. The congee cooking apparatus of claim 1, further comprising an upper bowl mechanism disposed above a starting end of the conveyor; go up bowl mechanism including depositing bowl box, screw and lead screw motor, the porridge bowl is range upon range of form and erects on screw's the external screw thread, lead screw motor drive screw rotates to drive the porridge bowl is elevating movement.

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