An automatic machine for measuring, washing and cooking

Abstract

The present application relates to kitchen mechanical technology field, specifically, it is a kind of automatic quantity, wash, cook integrated machine, it includes machine body, machine body includes mounting bracket, mounting bracket from top to bottom is equipped with storage mechanism, material placing mechanism, washing mechanism and cooking mechanism in turn;User can place multiple food grains such as rice, purple rice and black rice etc. in storage mechanism according to own dietary preference, and can control material placing mechanism by control mechanism, so that material placing mechanism quantitatively discharges food grain corresponding to storage mechanism, then, control mechanism controls washing mechanism to clean food grain under material placing mechanism, finally, control mechanism controls cooking mechanism to steam and cook, then only need to wait for food grain to be cooked, it can be eaten;The above process saves the time of user to take, measure, wash and cook food grain, preferably saves time and effort.

Description

Technical Field

[0001] This invention relates to the field of kitchen machinery technology, and more specifically, to an automatic measuring, washing, and cooking all-in-one machine. Background Technology

[0002] With the fast pace of life, working people generally need to spend a lot of time commuting between home and the office, so they don't have enough time to do housework such as cooking. For example, cooking rice requires taking out rice, measuring rice, washing rice, and finally putting it into the rice cooker to cook. These steps are time-consuming and laborious.

[0003] Although existing rice cookers have a timer function, allowing people to have cooked rice ready when they get home from work, they still need to take out, measure, and wash the rice before going to work, which is still not convenient enough. Summary of the Invention

[0004] This invention provides an automatic measuring, washing, and boiling machine that can overcome some or all the defects of the prior art.

[0005] According to the present invention, an automatic measuring, washing and cooking integrated machine includes a machine body, the machine body includes a mounting frame, and the mounting frame is provided with a storage mechanism, a discharging mechanism, a washing mechanism and a cooking mechanism from top to bottom; the storage mechanism is used to store multiple materials at intervals, the discharging mechanism is used to discharge the materials at the storage mechanism in a quantitative manner, the washing mechanism is used to wash the materials placed in the discharging mechanism, and the cooking mechanism is used to cook the materials washed by the washing mechanism.

[0006] A control mechanism is also provided at the mounting frame, which is used to control the feeding mechanism, washing mechanism and cooking mechanism.

[0007] In actual use, the main body provided in this invention allows users to place various grains, such as rice, purple rice, and black rice, into the storage compartment according to their dietary preferences. The control mechanism then controls the dispensing mechanism to dispense a measured amount of grain from the corresponding storage compartment. Subsequently, the control mechanism controls the washing mechanism to clean the grain passing under the dispensing mechanism. Finally, the control mechanism controls the cooking mechanism to steam and cook the grain. Afterward, users simply wait for the grain to be cooked before consuming it. This process saves users the time and effort of manually taking, measuring, washing, and cooking the grain.

[0008] The feeding mechanism can hold at least one type of food. For example, when cooking porridge, users can mix and match multiple types of food according to their dietary preferences.

[0009] In order to further save users' time, the control mechanism in this invention can be connected to the network, so that users can remotely control the operation of the machine body via their mobile phones after get off work or when they are at home, which is more convenient.

[0010] Preferably, the storage mechanism includes a storage box located above the mounting frame, with a storage cavity having an opening at the top. Multiple partitions are evenly spaced inside the storage cavity, and multiple food cavities are formed between adjacent partitions and the inner wall of the storage cavity. The various materials are placed in the multiple food cavities one by one. A discharge port is formed on the lower side wall of any food cavity.

[0011] With the above structure, users can better select various food items according to their dietary preferences and place them one by one in the food storage chamber, which is more convenient. In addition, the partitions can be installed in the storage chamber by plugging them in. On the one hand, users can increase the storage capacity of a certain food item, such as rice, by removing a partition. On the other hand, when users need to clean the storage chamber, they can remove the partitions for easier cleaning.

[0012] Preferably, the side wall of the storage box is provided with an observation port corresponding to any food chamber, and a transparent measuring plate is provided at the observation port.

[0013] With the above structure, users can observe the remaining amount of food in any corresponding food chamber through the transparent measuring plate, and then replenish it, which is more convenient.

[0014] Preferably, the feeding mechanism includes a feeding box with a feeding cavity inside. A mounting plate is installed inside the feeding cavity, and a feeding unit is located at the mounting plate corresponding to any feeding port. The feeding unit includes a conveying channel, with one side connected to the corresponding feeding port and the other side forming a conveying channel outlet. A spiral conveying blade is installed inside the conveying channel, and a drive motor is located near the feeding port to drive the spiral conveying blade to rotate. The spiral conveying blade is used to convey material from the feeding port to the conveying channel outlet. A guide port is formed on the lower inner wall of the feeding cavity to guide material from the conveying channel outlet to the washing mechanism.

[0015] With the above structure, when the drive motor rotates, it can drive the spiral conveyor blades to rotate in the conveying channel, thereby conveying the grain in the corresponding grain chamber from the feeding port to the discharge port of the conveying channel, and then guiding it to the washing mechanism along the guide port at the discharge chamber for washing, which is more convenient.

[0016] Among them, the ability to adjust the speed of the drive motor allows for relatively accurate quantitative feeding of the spiral conveyor blades.

[0017] Preferably, the washing mechanism includes a washing drum located below the feeding box, the washing drum having a washing chamber with upper and lower openings inside, a filter screen with upper and lower openings inside the washing chamber, the upper and lower openings of the washing chamber corresponding and flush with the upper and lower openings of the filter screen, and the outer wall of the filter screen being spaced apart from the inner wall of the washing chamber, and a sealing mechanism for sealing the lower opening of the washing chamber is provided below the washing drum.

[0018] The washing drum has a water inlet at the upper end of the washing chamber. A first flexible hose is provided at the water inlet. The water outlet of the first flexible hose is connected to the inner cavity of the filter screen. The water inlet of the first flexible hose is connected to a clean water tank through a pump.

[0019] The washing drum has a water outlet at the lower end of the washing chamber. A second flexible hose is installed at the water outlet. The inlet end of the second flexible hose is connected to the bottom wall of the washing chamber, and the outlet end of the second flexible hose is connected to a wastewater tank.

[0020] With the above structure, the grain falls into the filter screen from the feed inlet at the feeding chamber. The water outlet of the first hose sprays water to wash the grain under the action of the pump. The wastewater after washing can seep out of the filter screen and enter the wastewater tank along the second hose, which is more convenient.

[0021] After the rinsing step is completed, the sealing mechanism is released from the lower opening of the rinsing chamber to allow the grain to enter the cooking mechanism. At this time, the water outlet of the first hose still sprays water onto the filter screen to rinse the grain adhering to the filter screen surface and to add an appropriate amount of water to the cooking mechanism for subsequent steaming.

[0022] Preferably, the mounting bracket is provided with a placement plate below the washing drum, and the sealing mechanism includes a first cylinder located on the upper surface of the placement plate, and a sealing block is installed at the extended end of the first cylinder. The sealing block is used to seal the lower opening of the washing chamber.

[0023] With the above structure, the sealing block can be used to seal or unseal the lower opening of the washing chamber under the action of the first cylinder.

[0024] Preferably, the cooking mechanism includes a rice cooker bracket that can slide out from one side of the mounting bracket, the rice cooker bracket being used to mount the rice cooker; a rice cooker lid is provided below the placement plate for sealing the inner pot of the rice cooker, a first through hole is formed on the placement plate corresponding to the lower opening of the washing chamber, and a second through hole is formed on the rice cooker lid corresponding to the first through hole.

[0025] A second cylinder is installed below the feeding box. The extended end of the second cylinder passes through the placement plate and is connected to the upper part of the electric rice cooker lid.

[0026] The lid of the electric rice cooker is equipped with a guide rod that moves between it and the placement plate.

[0027] With the above structure, after the washing step is completed, the washed food enters the rice cooker through the lower end of the washing chamber along the first and second through holes. An appropriate amount of water is added to the rice cooker for steaming. After steaming is completed, the rice cooker lid can be separated from the rice cooker by the action of the second cylinder, so that the user can slide the rice cooker bracket out from the side of the mounting bracket to take out the rice, which is more convenient.

[0028] The mounting bracket has two parallel sliding grooves at its bottom, and the rice cooker bracket has a sliding rail corresponding to either groove, thus enabling the rice cooker bracket to slide on one side of the mounting bracket.

[0029] Preferably, the material box has a control cavity on one side, and the control mechanism is set in the control cavity. The control mechanism includes a controller, which includes several relay modules. Each drive motor, first cylinder, second cylinder, and pump is electrically connected to the corresponding relay.

[0030] In this invention, the control mechanism is preferably used to control the feeding mechanism, the washing mechanism, and the cooking mechanism.

[0031] The main body of the machine also includes a display screen, which is used to display controller data information, thus making it easier for users to use.

[0032] The controller is connected to household electricity through a power module, thus providing a better power supply for the main body of the device.

[0033] Preferably, a fan is installed above the storage bin.

[0034] In this invention, the fan can ventilate the food in the storage chamber, thereby preventing the food from spoiling, which is more convenient.

[0035] Preferably, the mounting rack has a storage rack on one side, which has a knife placement slot and a chopsticks placement slot; the storage rack also has a dryer inside for drying the knives or chopsticks.

[0036] In this invention, after eating, the user can place the cleaned knife and chopsticks into the knife slot and chopsticks slot respectively, and start the dryer so that the dryer can dry the moisture on the surface of the knife and chopsticks with hot air, thus avoiding the growth of bacteria and better ensuring the user's food health. Attached Figure Description

[0037] Figure 1 This is a schematic diagram of the main body of the machine in Example 1.

[0038] Figure 2 This is a cross-sectional schematic diagram of the main body of the machine in Example 1.

[0039] Figure 3This is a schematic diagram of the storage bin in Example 1.

[0040] Figure 4 This is a schematic diagram of the feeding box in Example 1.

[0041] Figure 5 This is an explosion diagram of the washing drum in Example 1.

[0042] Figure 6 This is a schematic diagram of the cooking mechanism in Example 1.

[0043] Figure 7 This is a schematic diagram of the material feeding box from another perspective in Example 1.

[0044] Figure 8 This is a schematic diagram of the accommodating frame in Example 1.

[0045] Figure 9 This is a schematic diagram of the control block diagram of the main body of the machine in Example 1. Detailed Implementation

[0046] To further understand the content of this invention, the invention will be described in detail with reference to the embodiments. It should be understood that the embodiments are merely illustrative and not limiting of the invention.

[0047] Example 1

[0048] like Figure 1-8 As shown, this embodiment provides an automatic measuring, washing, and cooking integrated machine, which includes a machine body 100. The machine body 100 includes a mounting frame 110. The mounting frame 110 is provided with a storage mechanism 120, a discharging mechanism 130, a washing mechanism 140, and a cooking mechanism 150 from top to bottom. The storage mechanism 120 is used to store multiple materials at intervals. The discharging mechanism 130 is used to discharge the materials at the storage mechanism 120 in a quantitative manner. The washing mechanism 140 is used to wash the materials placed in the discharging mechanism 130. The cooking mechanism 150 is used to cook the materials washed by the washing mechanism 140.

[0049] A control mechanism is also provided at the mounting frame 110, which is used to control the feeding mechanism 130, the washing mechanism 140, and the cooking mechanism 150.

[0050] In this embodiment, the main body 100 allows users to place various grains, such as rice, purple rice, and black rice, into the storage mechanism 120 according to their dietary preferences. The control mechanism then controls the dispensing mechanism 130 to dispense a measured amount of grain from the corresponding storage mechanism 120. Subsequently, the control mechanism controls the washing mechanism 140 to wash the grain passing under the dispensing mechanism 130. Finally, the control mechanism controls the cooking mechanism 150 to steam and cook the grain. Afterward, the grain is ready to eat once cooked. This process saves users the time and effort of manually taking, measuring, washing, and cooking the grain.

[0051] The feeding mechanism 130 can hold at least one type of food. For example, when cooking porridge, users can mix and match multiple types of food according to their dietary preferences.

[0052] In order to further save users' time, the control mechanism in this embodiment can be connected to the network, so that users can remotely control the operation of the main body 100 via their mobile phones after get off work or when they are at home, which is more convenient.

[0053] In this embodiment, the storage mechanism 120 includes a storage box 121 disposed above the mounting frame 110. The storage box 121 has a storage cavity 210 with an opening at the top. Multiple partitions 220 are evenly spaced inside the storage cavity 210. Multiple food cavities 230 are formed between adjacent partitions 220 and the inner wall of the storage cavity 210. The various materials are placed in the multiple food cavities 230 one by one. A discharge port 310 is formed on the lower side wall of any food cavity 230.

[0054] With the above structure, users can better select various food items according to their dietary preferences and place them one by one in the food compartment 230, which is more convenient. In addition, the partition 220 can be installed in the storage compartment 210 by plugging it in. On the one hand, users can increase the storage capacity of a certain food item, such as rice, by removing a certain partition 220. On the other hand, when users need to clean the storage compartment 210, they can remove the partition 220, which is more convenient for cleaning.

[0055] In this embodiment, an observation port 320 is provided on the side wall of the storage box 121 corresponding to any food cavity 230, and a transparent measuring plate 330 is provided at the observation port 320.

[0056] With the above structure, users can observe the remaining amount of food in any corresponding food chamber 230 through the transparent measuring plate 330, and then replenish it, which is more convenient.

[0057] In this embodiment, the feeding mechanism 130 includes a feeding box 131, a feeding cavity 250 is formed inside the feeding box 131, an installation plate 251 is provided inside the feeding cavity 250, and a feeding unit 240 is provided at the installation plate 251 corresponding to any feeding port 310; the feeding unit 240 includes a conveying channel 410, one side of the conveying channel 410 is connected to the corresponding feeding port 310, and the other side of the conveying channel 410 forms a conveying channel outlet 411, a spiral conveying blade 420 is provided inside the conveying channel 410, and a drive motor 430 for driving the spiral conveying blade 420 to rotate is provided on the side of the conveying channel 410 near the feeding port 310, the spiral conveying blade 420 is used to convey the material at the feeding port 310 to the conveying channel outlet 411; a guide port 252 is formed on the lower inner wall of the feeding cavity 250, the guide port 252 is used to guide the material at the conveying channel outlet 411 to the washing mechanism 140.

[0058] With the above structure, when the drive motor 430 rotates, it can drive the spiral conveying blade 420 to rotate in the conveying channel 410, thereby conveying the food in the corresponding food chamber 230 from the feeding port 310 to the feeding channel outlet 411, and then guiding it along the guide port 252 at the discharge chamber 250 to the washing mechanism 140 for washing, which is more convenient.

[0059] The screw conveyor blades 420 can be fed quantitatively and accurately by adjusting the speed of the drive motor 430.

[0060] In this embodiment, the washing mechanism 140 includes a washing drum 510 disposed below the feeding box 131. The washing drum 510 has a washing cavity 511 with upper and lower openings. The washing cavity 511 is provided with a filter screen 520 with upper and lower openings. The upper and lower openings of the washing cavity 511 are flush with the upper and lower openings of the filter screen 520, and the outer wall of the filter screen 520 is spaced apart from the inner wall of the washing cavity 511. A sealing mechanism 270 is provided below the washing drum 510 to seal the lower opening of the washing cavity 511.

[0061] The washing drum 510 is provided with a water inlet 530 at the upper end of the washing chamber 511. A first hose is provided at the water inlet 530. The water outlet of the first hose is connected to the inner cavity of the filter screen 520. The water inlet of the first hose is connected to a clean water tank 141 through a pump.

[0062] The washing drum 510 is located at the lower end of the washing chamber 511 and has an outlet 540. A second hose is provided at the outlet 540. The inlet end of the second hose is connected to the bottom wall of the washing chamber 511, and the outlet end of the second hose is connected to a wastewater tank 142.

[0063] With the above structure, the grain falls into the filter screen 520 from the feed inlet 252 at the feed chamber 250. The water outlet of the first hose sprays water to wash the grain under the action of the pump. The wastewater after washing can seep out of the filter screen 520 and enter the wastewater tank 142 along the second hose, which is more convenient.

[0064] After the washing step is completed, the sealing mechanism 270 is released from the lower opening of the washing chamber 511 so that the grain can enter the cooking mechanism. At this time, the water outlet of the first hose still sprays water at the filter screen 520 to rinse the grain adhering to the surface of the filter screen 520 and to add an appropriate amount of water to the cooking mechanism for subsequent steaming.

[0065] The material feeding box 131 is provided with a plug-in groove 440 below it. The upper opening edge of the washing drum 510 fits into the plug-in groove 440, thus better realizing the installation of the washing drum 510 below the material feeding box 131.

[0066] In this embodiment, a placement plate 260 is provided at the mounting bracket 110 below the washing drum 510, and the sealing mechanism 270 includes a first cylinder 610 disposed at the upper end surface of the placement plate 260. A sealing block 620 is installed at the extended end of the first cylinder 610. The sealing block 620 is used to seal the lower opening of the washing chamber 511.

[0067] The washing drum 510 has a sealing groove 550 at the lower opening for the sealing block 620 to slide, thus ensuring the stability of the sliding of the sealing block 620.

[0068] With the above structure, the sealing block 620 can better seal or unseal the lower opening of the washing chamber 511 under the action of the first cylinder 610.

[0069] In this embodiment, the cooking mechanism 150 includes a rice cooker bracket 280 that can slide out from one side of the mounting bracket 110. The rice cooker bracket 280 is used to mount the rice cooker 290. Below the placement plate 260, there is a rice cooker lid 291 for sealing the inner pot of the rice cooker 290. The placement plate 260 has a first through hole corresponding to the lower opening of the washing chamber 511, and the rice cooker lid 291 has a second through hole corresponding to the first through hole.

[0070] A second cylinder 630 is installed below the feeding box 131. The extended end of the second cylinder 630 passes through the placement plate 260 and is connected to the upper end of the electric rice cooker lid 291.

[0071] A guide rod is provided between the rice cooker lid 291 and the placement plate 260 to better ensure the stability of the rice cooker lid 291 when opening and closing.

[0072] With the above structure, after the washing step is completed, the washed food enters the rice cooker 290 through the lower opening of the washing chamber 511 along the first and second through holes, and an appropriate amount of water is added to the rice cooker 290 for steaming. After steaming is completed, the rice cooker lid 291 can be separated from the rice cooker 290 under the action of the second cylinder 630, so that the user can slide the rice cooker support 280 out from the side of the mounting bracket 110 to take out the rice, which is more convenient.

[0073] The mounting bracket 110 has two parallel sliding grooves 640 at its bottom, and the rice cooker bracket 280 has a sliding rail 650 corresponding to either sliding groove 640, thus better realizing the sliding of the rice cooker bracket 280 on one side of the mounting bracket 110.

[0074] In this embodiment, the material feeding box 131 has a control cavity 710 on one side, and the control mechanism is set in the control cavity 710. The control mechanism includes a controller, which includes several relay modules. Any drive motor 430, first cylinder 610, second cylinder 630, pump and corresponding relay are electrically connected one by one.

[0075] In this embodiment, the control mechanism is preferably used to control the feeding mechanism 130, the washing mechanism 140, and the cooking mechanism 150.

[0076] The main body 100 also includes a display screen 450, which is used to display controller data information, thus making it easier for users to use.

[0077] The controller is connected to household electricity through a power module, thus providing a better power supply for the main body 100.

[0078] In this embodiment, a fan 170 is provided above the storage bin 121.

[0079] In this embodiment, the fan 170 can ventilate the food in the storage chamber 210, thereby preventing the food from spoiling, which is more convenient.

[0080] In this embodiment, a accommodating rack 160 is provided on one side of the mounting rack 110. The accommodating rack 160 has a knife placement slot 820 and a chopsticks placement slot 810. The accommodating rack 160 is also provided with a dryer 830 for drying the knives or chopsticks.

[0081] In this embodiment, after eating, the user can place the cleaned knife and chopsticks into the knife placement slot 820 and chopsticks placement slot 810 respectively, and start the dryer 830 so that the dryer 830 can dry the moisture on the surface of the knife and chopsticks with hot air, thus avoiding the growth of bacteria and better ensuring the user's dietary health.

[0082] It is readily understood that those skilled in the art can combine, split, or reorganize the embodiments provided in this application to obtain other embodiments, all of which do not exceed the protection scope of this application.

[0083] The present invention and its embodiments have been described above illustratively. This description is not restrictive, and the embodiments shown are only part of the embodiments of the present invention. The actual structure is not limited thereto. Therefore, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the spirit of the present invention, they should all fall within the protection scope of the present invention.

Claims

1. An automatic measuring, washing, and boiling integrated machine, characterized in that: The machine body (100) includes a mounting frame (110), which is provided with a storage mechanism (120), a discharge mechanism (130), a washing mechanism (140) and a cooking mechanism (150) from top to bottom. The storage mechanism (120) is used to store multiple materials at intervals, the discharge mechanism (130) is used to discharge the materials at the storage mechanism (120) in a quantitative manner, the washing mechanism (140) is used to wash the materials placed in the discharge mechanism (130), and the cooking mechanism (150) is used to cook the materials washed by the washing mechanism (140). A control mechanism is also provided at the mounting frame (110), which is used to control the feeding mechanism (130), the washing mechanism (140), and the cooking mechanism (150).

2. The automatic measuring, washing, and boiling integrated machine according to claim 1, characterized in that: The storage mechanism (120) includes a storage box (121) disposed above the mounting frame (110). A storage cavity (210) with an opening at the top is formed in the storage box (121). Multiple partitions (220) are evenly spaced inside the storage cavity (210). Multiple food cavities (230) are formed between adjacent partitions (220) and the inner wall of the storage cavity (210). The various materials are placed in the multiple food cavities (230) in a corresponding manner. A discharge port (310) is formed on the lower side wall of any food cavity (230).

3. The automatic measuring, washing, and boiling integrated machine according to claim 2, characterized in that: The side wall of the storage box (121) is provided with an observation port (320) corresponding to any food chamber (230), and a transparent measuring plate (330) is provided at the observation port (320).

4. The automatic measuring, washing, and boiling integrated machine according to claim 2, characterized in that: The feeding mechanism (130) includes a feeding box (131), a feeding cavity (250) is formed inside the feeding box (131), an installation plate (251) is provided inside the feeding cavity (250), and a feeding unit (240) is provided at the installation plate (251) corresponding to any feeding port (310); the feeding unit (240) includes a feeding channel (410), one side of the feeding channel (410) is connected to the corresponding feeding port (310), and the other side of the feeding channel (410) is formed with a feeding channel outlet (411). 10) The interior is equipped with a spiral conveying blade (420). The conveying channel (410) is equipped with a drive motor (430) for driving the spiral conveying blade (420) to rotate near the discharge port (310). The spiral conveying blade (420) is used to convey the material at the discharge port (310) to the discharge port (411) of the conveying channel. The inner wall below the discharge chamber (250) forms a guide port (252). The guide port (252) is used to guide the material at the discharge port (411) of the conveying channel to the washing mechanism (140).

5. The automatic measuring, washing, and boiling integrated machine according to claim 4, characterized in that: The washing mechanism (140) includes a washing drum (510) located below the feeding box (131). The washing drum (510) has a washing chamber (511) with upper and lower openings inside. The washing chamber (511) is provided with a filter screen (520) with upper and lower openings. The upper and lower openings of the washing chamber (511) are flush with the upper and lower openings of the filter screen (520), and the outer wall of the filter screen (520) is spaced apart from the inner wall of the washing chamber (511). A sealing mechanism (270) is provided below the washing drum (510) to seal the lower opening of the washing chamber (511). The washing drum (510) is provided with an inlet (530) at the upper end of the washing chamber (511). A first hose is provided at the inlet (530). The outlet end of the first hose is connected to the inner cavity of the filter screen (520). The inlet pipe of the first hose is connected to a clean water tank (141) through a pump. The washing drum (510) is located at the lower end of the washing chamber (511) and has an outlet (540). A second hose is provided at the outlet (540). The inlet end of the second hose is connected to the bottom wall of the washing chamber (511), and the outlet end of the second hose is connected to a wastewater tank (142).

6. The automatic measuring, washing, and boiling integrated machine according to claim 5, characterized in that: The mounting bracket (110) is located below the washing drum (510) and a placement plate (260) is provided. The sealing mechanism (270) includes a first cylinder (610) located on the upper surface of the placement plate (260). A sealing block (620) is installed at the extended end of the first cylinder (610). The sealing block (620) is used to seal the lower opening of the washing chamber (511).

7. An automatic measuring, washing, and boiling integrated machine according to claim 6, characterized in that: The cooking mechanism (150) includes a rice cooker bracket (280) that can slide out from one side of the mounting bracket (110), the rice cooker bracket (280) is used to install the rice cooker (290); a rice cooker lid (291) is provided below the placement plate (260) for sealing the inner pot of the rice cooker (290), the placement plate (260) has a first through hole corresponding to the lower opening of the washing chamber (511), and the rice cooker lid (291) has a second through hole corresponding to the first through hole; A second cylinder (630) is installed below the feeding box (131). The extended end of the second cylinder (630) passes through the placement plate (260) and is connected to the upper end of the electric rice cooker lid (291). A guide rod is movably provided between the electric rice cooker lid (291) and the placement plate (260).

8. The automatic measuring, washing, and boiling integrated machine according to claim 7, characterized in that: The material feeding box (131) has a control cavity (710) on one side. The control mechanism is located in the control cavity (710). The control mechanism includes a controller, which includes several relay modules. Any drive motor (430), first cylinder (610), second cylinder (630), pump and corresponding relay are electrically connected one by one.

9. An automatic measuring, washing, and boiling integrated machine according to claim 2, characterized in that: A fan (170) is installed above the storage bin (121).

10. An automatic measuring, washing, and boiling integrated machine according to claim 1, characterized in that: The mounting bracket (110) has a storage rack (160) on one side, which has a knife placement slot (820) and a chopsticks placement slot (810); the storage rack (160) also has a dryer (830) inside for drying the knives or chopsticks.

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