Safe and sanitary complementary food cooking machine
By using the inner and outer cup structure and the design of glass or stainless steel, the food is steamed using 100°C steam generated in the water storage chamber, which solves the problems of bacterial killing and the release of harmful substances from plastics in existing technologies, achieving efficient sterilization and food safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHONGSHAN MEIYANG ELECTRIC CO LTD
- Filing Date
- 2025-05-26
- Publication Date
- 2026-06-05
AI Technical Summary
Existing baby food processors cannot effectively kill bacteria, and the plastic material releases harmful substances when cooked at high temperatures, affecting food safety and hygiene.
It adopts an inner and outer cup structure. The inner cup is made of glass or stainless steel. It uses a water storage chamber to heat and generate saturated steam at 100°C to steam the food. It is stirred by a glass or stainless steel stirring blade to avoid direct contact between plastic and food.
It effectively kills bacteria, improves cooking efficiency, ensures food safety and hygiene, extends the lifespan of the rack, and prevents the release of harmful substances.
Smart Images

Figure CN224320581U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of food processor technology, and in particular to a safe and hygienic baby food processor. Background Technology
[0002] Baby food processors, also known as baby food makers, are a type of food processor that can blend, crush, and even heat and steam food. They are especially suitable for processing and cooking complementary foods for infants and the elderly, and are thus gaining increasing recognition from consumers.
[0003] Currently, most baby food processors on the market use a double boiler method to heat the ingredients inside the blending cup. However, the temperature inside the cup cannot reach 100 degrees Celsius during double boiler heating (the temperature inside the cup is usually between 85-95 degrees Celsius), thus failing to effectively kill bacteria. Furthermore, the cooking time is long, resulting in low efficiency. In addition, existing blending cups (such as the cup body, lid, or blending blade) are at least partially made of plastic and come into direct contact with food. During high-temperature cooking, the plastic can release harmful substances that seep into the food. If ingested, this may weaken the immune system, cause blood disorders, and even increase the risk of cancer. Utility Model Content
[0004] In order to overcome the shortcomings of the existing technology, the purpose of this utility model is to provide a safe and hygienic baby food processor that can solve the problems mentioned in the background technology, such as the inability to effectively kill bacteria and the release of harmful substances when plastic is cooked at high temperature.
[0005] The objective of this utility model is achieved through the following technical solution:
[0006] A safe and hygienic baby food processor, comprising:
[0007] The outer cup has a heating element at its bottom;
[0008] An inner cup is disposed inside the outer cup; a water storage cavity is formed between the inner cup and the outer cup; the heating component can heat the water in the water storage cavity to generate steam, and then the steam can enter the inner cup to steam the food placed in the inner cup;
[0009] The inner cup includes an inner cup body, an inner lid covering the top of the inner cup body, and a stirring blade rotatably disposed within the inner cup body; the inner cup body is made of glass or stainless steel, the inner lid is made of glass or stainless steel, and the stirring blade is entirely made of stainless steel.
[0010] As an optional implementation, a bracket is also included at the top opening of the outer cup, wherein:
[0011] The inner wall of the bracket is provided with several protrusions, and the top of the inner cup is provided with a first flange. The inner cup is hooked onto several of the protrusions through the first flange to be housed inside the outer cup.
[0012] The inner wall of the bracket and the outer wall of the inner cup have a first gap to form a first airflow channel for steam to flow in.
[0013] As an optional implementation, the inner wall of the bracket is provided with a positioning groove, and the outer periphery of the inner cover is bent downward to form a second flange, and the inner cover is hooked onto the positioning groove through the second flange;
[0014] There is a second gap between the bottom wall of the inner cover and the top wall of the inner cup to form a second airflow channel for steam to flow in. The steam generated in the water storage cavity can enter the inner cup body in sequence through the first airflow channel and the second airflow channel.
[0015] As an optional implementation, a sealing ring is also included, disposed between the top opening of the outer cup and the bracket to form a waterproof seal, wherein:
[0016] The sealing ring is provided with several protrusions that pass through the bracket. When the inner cup is hung on the bracket, the outer wall of the inner cup abuts against the several protrusions to achieve positioning and fixation.
[0017] As an alternative implementation, the bracket is made of glass or stainless steel.
[0018] As an optional implementation, it also includes a machine head covering the top of the outer cup, wherein a drive unit is provided inside the machine head, wherein:
[0019] The drive unit is provided with a first connector;
[0020] The stirring blade is provided with a second connector, which extends out of the inner cover and connects with the first connector to achieve transmission.
[0021] As an optional implementation, the inner cover is provided with a first magnetic element, and the stirring blade is provided with a second magnetic element. The first magnetic element and the second magnetic element are magnetically attracted to each other to limit and fix the stirring blade.
[0022] There is a third gap between the bottom wall of the inner cover and the top wall of the stirring blade to form a third airflow channel for steam to flow out;
[0023] The inner cover has a through hole through which the second connector can pass. The inner wall of the through hole and the outer wall of the second connector have a fourth gap to form a fourth airflow channel for steam to flow out.
[0024] As an optional implementation, a fifth gap is provided between the bottom wall of the machine head and the top wall of the inner cover to form a fifth airflow channel for steam to flow out, and a sixth airflow channel is provided inside the machine head to communicate with the outside and allow steam to flow out;
[0025] The steam inside the inner cup can be discharged to the outside through the third, fourth, fifth and sixth airflow channels in sequence.
[0026] As an optional implementation, the outer cup is a completely glass cup.
[0027] As an optional implementation, the heating assembly includes a heating plate attached to the bottom of the outer cup to achieve heat transfer and a heating tube disposed at the bottom of the heating plate.
[0028] In summary, this utility model has the following technical effects:
[0029] (1) The food processor of this utility model, under the action of the heating component, can continuously generate saturated steam after the water in the water storage chamber boils. The steam temperature can be stably maintained at 100°C and enter the inner cup to steam the food, thereby effectively killing bacteria. In addition, since the high temperature steam directly contacts the surface of the food, it can efficiently transfer heat, thereby reducing cooking time and improving cooking efficiency.
[0030] (2) The complementary food processor of this utility model is made of glass or stainless steel. The inner cup is made of glass or stainless steel. The stirring blade is made of stainless steel. In this way, only glass and stainless steel are in contact with the food. No plastic material is in direct contact with the food. There is no need to worry about the release of harmful substances during high-temperature cooking, making the food safer and more hygienic.
[0031] (3) The baby food processor of this utility model has a bracket made of glass or stainless steel. Compared with the bracket made of plastic, it can avoid the plastic parts from being aged by long-term steam exposure, thus extending its service life. It can also prevent the release of harmful substances and seep into the steam and then into the food, thereby ensuring the safety and hygiene of the food. Attached Figure Description
[0032] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0033] Figure 1This is a schematic diagram of the structure of the baby food processor of this utility model;
[0034] Figure 2 This is an exploded view of the baby food processor of this utility model;
[0035] Figure 3 This is an exploded schematic diagram of the inner cup in the baby food processor of this utility model;
[0036] Figure 4 This is a cross-sectional schematic diagram of the inner cup of the baby food processor of this utility model;
[0037] Figure 5 This is a schematic diagram of the structure of the baby food processor of this utility model after the sealing ring and the bracket are assembled;
[0038] Figure 6 This is a cross-sectional schematic diagram of the inner cup, sealing ring, and bracket assembled in the baby food processor of this utility model.
[0039] Figure 7 for Figure 6 A cross-sectional view from another perspective;
[0040] Figure 8 This is a schematic diagram of the bottom of the machine head in the baby food processor of this utility model;
[0041] Figure 9 This is a cross-sectional schematic diagram of the baby food processor of this utility model.
[0042] The meanings of the reference numerals in the attached figures are as follows:
[0043] 1. Outer cup; 2. Inner cup; 21. Inner cup body; 211. First flange; 212. Fixed shaft; 22. Inner cover; 221. Second flange; 222. Second through hole; 23. Stirring blade; 231. Blade shaft; 232. Blade; 233. Second connector; 2331. First locking block; 24. Fixed bracket; 25. First magnet; 26. Second magnet; 3. Bracket; 31. Protrusion; 32. Positioning groove; 33. First through hole; 4. Sealing ring; 41. Protrusion; 5. Base; 6. Head; 61. Upper housing; 62. Lower housing; 621. Boss; 63. Drive unit; 64. First connector; 641. Slot; 642. Second locking block; 7. Heating assembly; 71. Heating plate; 711. First heating plate; 712. Second heating plate; 72. Heating tube. Detailed Implementation
[0044] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0045] In this invention, the terms "upper," "lower," "left," "right," "front," "rear," "top," "bottom," "inner," "outer," "middle," "vertical," "horizontal," "lateral," and "longitudinal" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are primarily for the purpose of better describing this invention and its embodiments, and are not intended to limit the indicated device, element, or component to having a specific orientation, or to be constructed and operated in a specific orientation.
[0046] Furthermore, in addition to indicating direction or positional relationship, some of the aforementioned terms may also have other meanings. For example, the term "above" may also be used in some cases to indicate a certain dependency or connection relationship. Those skilled in the art can understand the specific meaning of these terms in this utility model according to the specific circumstances.
[0047] Furthermore, the terms "installation," "setup," "equipped with," "connection," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral structure; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium, or an internal connection between two devices, components, or parts. Those skilled in the art can understand the specific meaning of these terms in this utility model based on the specific circumstances.
[0048] Furthermore, the terms "first," "second," etc., are primarily used to distinguish different devices, components, or parts (which may be the same or different in specific type and construction), and are not intended to indicate or imply the relative importance or quantity of the indicated devices, components, or parts. Unless otherwise stated, "a plurality of" means two or more.
[0049] The technical solution of this utility model will be further described below with reference to the embodiments and accompanying drawings.
[0050] See Figures 1 to 9This application provides a safe and hygienic baby food processor, including a base 5 and an outer cup 1 disposed on the base 5. The base 5 is provided with a heating component 7, which is disposed at the bottom of the outer cup 1 and heats the outer cup 1. It also includes an inner cup 2 disposed inside the outer cup 1. There are certain gaps between the outer side wall of the inner cup 2 and the inner side wall of the outer cup 1, and between the outer bottom wall of the inner cup 2 and the inner bottom wall of the outer cup 1, to form a water storage cavity. The heating component 7 can heat the water in the water storage cavity to form steam, and then the steam can enter the inner cup 2 to steam the food placed in the inner cup 2.
[0051] Therefore, under the action of the heating component 7, the water in the water storage chamber can continuously generate saturated steam after boiling. The steam temperature can be stably maintained at 100°C and enter the inner cup 2 to steam the food, thereby effectively killing bacteria. In addition, since the high-temperature steam is in direct contact with the surface of the food, it can efficiently transfer heat, thereby reducing cooking time and improving cooking efficiency.
[0052] See Figure 3 The inner cup 2 includes an inner cup body 21, an inner lid 22 covering the top of the inner cup body 21, and a stirring blade 23 rotatably disposed within the inner cup body 21. The stirring blade 23 includes a blade shaft 231 and blades 232 disposed on the blade shaft 231. When the stirring blade 23 is rotated, it can drive the blades 232 to rotate at high speed to stir and chop the food. The inner lid 22 covers the top of the inner cup body 21 and blocks the food from splashing. The inner cup body 21 is made of glass, while the inner lid 22 and the stirring blade 23 are both made of stainless steel.
[0053] Therefore, the inner cup 21 is made of glass, the inner lid 22 is made of stainless steel, and the stirring blade 23 is made entirely of stainless steel. Thus, only glass and stainless steel come into contact with the food, and no plastic material comes into direct contact with the food. There is no need to worry about the release of harmful substances during high-temperature cooking, making the food safer and more hygienic.
[0054] It should be noted that in other embodiments, the inner cup body 21 can also be made of stainless steel, and the inner lid 22 can also be made of glass, which can also achieve direct contact with food without plastic material, and there is no limitation on the material.
[0055] See Figure 2 as well as Figure 5-7The baby food processor also includes a bracket 3 located at the top opening of the outer cup 1. The bracket 3 has a ring-shaped structure and its inner side wall is provided with several protrusions 31. The top edge of the inner cup 21 is bent outward to form a first flange 211. The inner cup 21 is hooked onto the protrusions 31 through the first flange 211 to be housed inside the outer cup 1. A first gap exists between the inner side wall of the bracket 3 and the outer side wall of the inner cup 21 to form a first airflow channel for steam to flow in. In addition, the inner wall of the bracket 3 is also provided with a positioning groove 32. The outer periphery of the inner cover 22 is bent downward to form a second flange 221. The inner cover 22 is hooked onto the positioning groove 32 through the second flange 221. A second gap exists between the bottom wall of the inner cover 22 and the top wall of the inner cup 21 to form a second airflow channel for steam to flow in.
[0056] Therefore, see Figure 9 Under the action of the heating component 7, the water in the water storage chamber can be heated to generate steam. Then the steam moves upward and enters the inner cup 21 through the first airflow channel and the second airflow channel in sequence to steam the food placed in the inner cup 21.
[0057] Preferably, it also includes a sealing ring 4 disposed between the top opening of the outer cup 1 and the bracket 3 to form a waterproof seal. The sealing ring 4 is also annular and is fitted over the outside of the bracket 3. The inner wall of the sealing ring 4 is provided with several protrusions 41, and the bracket 3 has first through holes 33 corresponding to the protrusions 41. The protrusions 41 can pass through the first through holes 33 to extend into the inside of the bracket 3. When the inner cup 21 is attached to the bracket 3, the outer wall of the inner cup 21 abuts against the protrusions 41 to achieve a limiting and fixing effect (e.g., ...). Figure 7 (As shown). Preferably, the protrusion 41 is a protrusion integrally formed on the sealing ring 4.
[0058] Therefore, based on the above structure, during use, the sealing ring 4 can be first fitted onto the outside of the bracket 3 to achieve assembly and fixation between the two (e.g., Figure 5 As shown), the assembled sealing ring 4 and bracket 3 are then hung together at the top opening of the outer cup 1 to achieve limiting and fixing. Next, the inner cup 21 is hung on the bracket 3 to be housed inside the outer cup 1. Finally, the inner cover 22 is placed on the bracket 3 to seal the top of the inner cup 21, thus completing the assembly.
[0059] In addition, when it is necessary to disassemble and clean, the inner cover 22, the inner cup 21, and the assembled sealing ring 4 and bracket 3 can be removed in sequence, and then the sealing ring 4 and bracket 3 can be separated, so that each part can be cleaned individually, which is simple, convenient and has a good cleaning effect.
[0060] Preferably, the tray 3 is made of glass or stainless steel. Compared with the tray 3 made of plastic, it can not only avoid the aging of plastic parts caused by long-term steam exposure and extend their service life, but also prevent the release of harmful substances and their seepage into the steam and then into the food, thereby ensuring the safety and hygiene of the food.
[0061] Of course, in other embodiments, the bracket 3 can also be made of high-temperature resistant plastic material, which can also meet the usage requirements, and there is no limitation on its material here.
[0062] See Figure 1-2 as well as Figure 8-9 The baby food processor also includes a head 6 that covers the top of the outer cup 1. The head 6 houses a drive unit 63, and the output end of the drive unit 63 has a first connector 64. The upper end of the blade shaft 231 of the mixing blade 23 has a second connector 233. A second through hole 222 is formed in the middle of the inner cover 22. The second connector 233 passes through the second through hole 222 and connects to the first connector 64 to achieve a transmission engagement. Preferably, the drive unit 63 is a drive motor, and the output end of the drive motor is connected to the first connector 64.
[0063] Therefore, when the machine head 6 is placed on top of the outer cup 1 and the drive unit 63 is started, it can drive the first connector 64 to rotate, and then drive the stirring blade 23 to rotate through the second connector 233, so as to stir and cut the food in the inner cup 21.
[0064] Specifically, the bottom of the first connector 64 is provided with a slot 641, and a number of second locking blocks 642 are arranged at intervals in the inner ring of the slot 641; the top of the second connector 233 is provided with a number of first locking blocks 2331. When the machine head 6 is placed on the top of the outer cup 1, the second connector 233 extends into the slot 641 and the number of first locking blocks 2331 respectively engage with the number of second locking blocks 642 to achieve transmission connection.
[0065] The inner cover 22 is further provided with a fixing bracket 24, and a first magnet 25 is provided inside the fixing bracket 24. The top end of the blade shaft 231 of the stirring blade 23 is provided with a second magnet 26 with the opposite magnetic pole to the first magnet 25. When the inner cover 22 is placed on the bracket 3, the first magnet 25 and the second magnet 26 are magnetically attracted to each other to limit and fix the stirring blade 23. Preferably, both the first magnet 25 and the second magnet 26 are magnetic rings.
[0066] In addition, a fixed shaft 212 is protruding from the bottom of the inner cup 21, and a groove is provided at the bottom of the blade shaft 231, into which the fixed shaft 212 extends. Thus, through the abutting engagement of the fixed shaft 212 and the groove, the stirring blade 23 can be limited, preventing it from shifting and hitting the inner cup 21 if the food particles are too large and the inner cover 22 fails to hold the stirring blade 23 in place during startup.
[0067] When the inner cover 22 adsorbs the stirring blade 23, a third gap exists between the bottom wall of the inner cover 22 and the top wall of the stirring blade 23 to form a third airflow channel for steam to flow out. A fourth gap exists between the inner wall of the second through hole 222 on the inner cover 22 and the outer wall of the second connector 233 to form a fourth airflow channel for steam to flow out. The fixing bracket 24 has an annular structure, and the second connector 233 passes through the fixing bracket 24. Furthermore, a fifth gap exists between the bottom wall of the machine head 6 and the top wall of the inner cover 22 to form a fifth airflow channel for steam to flow out. The machine head 6 also has a sixth airflow channel that connects to the outside and allows steam to flow out.
[0068] Therefore, see Figure 9 The steam inside the inner cup 21 can be discharged to the outside through the third airflow channel, the fourth airflow channel, the fifth airflow channel and the sixth airflow channel in sequence, thereby realizing the discharge of steam.
[0069] Specifically, the head unit 6 includes an upper housing 61 and a lower housing 62, which are interconnected and form an internal mounting cavity. The drive unit 63 is installed in the mounting cavity. The lower housing 62 has an upwardly extending boss 621 that passes through the upper housing 61. The boss 621 has a groove inside to form a sixth airflow channel, and the top of the boss 621 has several exhaust holes that communicate with the sixth airflow channel.
[0070] Preferably, the outer cup 1 is made entirely of glass. For glass heating containers, this reduces the problem of heavy metal residues in stainless steel heating containers, which is more beneficial to drinking water health. In addition, the heating assembly 7 includes a heating plate 71 attached to the bottom of the outer cup 1 to achieve heat transfer and a heating tube 72 disposed at the bottom of the heating plate 71. The heating plate 71 includes a first heating plate 711 located at the bottom and a second heating plate 712 stacked on the first heating plate 711. The top surface of the second heating plate 712 is attached to the bottom surface of the outer cup 1, and the heating tube 72 is attached to the bottom surface of the first heating plate 711.
[0071] Therefore, by setting a second heating plate 712 on the top of the first heating plate 711, the second heating plate 712 can cover several nut posts on the first heating plate 711. When the second heating plate 712 is in contact with the bottom of the outer cup 1, it can effectively prevent the user from observing the nut posts, thereby improving the overall aesthetics of the product and enhancing the user experience.
[0072] Of course, in other embodiments, the outer cup 1 can also be made of stainless steel, which can also meet the usage requirements, and there is no limitation on its material. In addition, when the outer cup 1 is made of stainless steel, only one layer of heating plate 71 is needed.
[0073] In summary, this utility model has the following technical effects:
[0074] (a) The baby food processor of this utility model, under the action of the heating component 7, can continuously generate saturated steam after the water in the water storage chamber boils. The steam temperature can be stably maintained at 100°C and enter the inner cup 2 to steam the food, thereby effectively killing bacteria. In addition, since the high temperature steam directly contacts the surface of the food, it can efficiently transfer heat, thereby reducing cooking time and improving cooking efficiency.
[0075] (ii) The complementary food processor of this utility model has an inner cup body 21 made of glass or stainless steel, an inner lid 22 made of glass or stainless steel, and a stirring blade 23 made entirely of stainless steel. In this way, only glass and stainless steel are in contact with the food, and no plastic material is in direct contact with the food. There is no need to worry about the release of harmful substances during high-temperature cooking, making the food safer and more hygienic.
[0076] (III) The baby food processor of this utility model has a bracket 3 made of glass or stainless steel. Compared with the bracket 3 made of plastic, it can avoid the plastic parts from aging due to long-term exposure to steam, thus extending its service life. It can also prevent the release of harmful substances and seep into the steam and then into the food, thereby ensuring the safety and hygiene of the food.
[0077] The technical means disclosed in this utility model are not limited to those disclosed in the above embodiments, but also include technical solutions composed of any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of this utility model, and these improvements and modifications are also considered within the scope of protection of this utility model.
Claims
1. A safe and hygienic baby food processor, characterized in that, include: The outer cup has a heating element at its bottom; An inner cup is disposed inside the outer cup; a water storage cavity is formed between the inner cup and the outer cup; the heating component can heat the water in the water storage cavity to generate steam, and then the steam can enter the inner cup to steam the food placed in the inner cup; The inner cup includes an inner cup body, an inner lid covering the top of the inner cup body, and a stirring blade rotatably disposed within the inner cup body; the inner cup body is made of glass or stainless steel, the inner lid is made of glass or stainless steel, and the stirring blade is entirely made of stainless steel.
2. The baby food processor according to claim 1, characterized in that: It also includes a bracket disposed at the top opening of the outer cup, wherein: The inner wall of the bracket is provided with several protrusions, and the top of the inner cup is provided with a first flange. The inner cup is hooked onto several of the protrusions through the first flange to be housed inside the outer cup. The inner wall of the bracket and the outer wall of the inner cup have a first gap to form a first airflow channel for steam to flow in.
3. The baby food processor according to claim 2, characterized in that: The inner wall of the bracket is provided with a positioning groove, and the outer periphery of the inner cover is bent downward to form a second flange. The inner cover is hooked onto the positioning groove through the second flange. There is a second gap between the bottom wall of the inner cover and the top wall of the inner cup to form a second airflow channel for steam to flow in. The steam generated in the water storage cavity can enter the inner cup through the first airflow channel and the second airflow channel in sequence.
4. The baby food processor according to claim 2 or 3, characterized in that: It also includes a sealing ring disposed between the top opening of the outer cup and the bracket to form a waterproof seal, wherein: The sealing ring is provided with several protrusions that pass through the bracket. When the inner cup is hung on the bracket, the outer wall of the inner cup abuts against the several protrusions to achieve positioning and fixation.
5. The baby food processor according to claim 2 or 3, characterized in that: The bracket is made of glass or stainless steel.
6. The baby food processor according to claim 1, characterized in that: It also includes a machine head that covers the top of the outer cup, wherein a drive unit is provided inside the machine head, wherein: The drive unit is provided with a first connector; The stirring blade is provided with a second connector, which extends out of the inner cover and connects with the first connector to achieve transmission.
7. The baby food processor according to claim 6, characterized in that: The inner cover is provided with a first magnetic element, and the stirring blade is provided with a second magnetic element. The first magnetic element and the second magnetic element are magnetically attracted to each other to limit and fix the stirring blade. There is a third gap between the bottom wall of the inner cover and the top wall of the stirring blade to form a third airflow channel for steam to flow out; The inner cover has a through hole through which the second connector can pass. The inner wall of the through hole and the outer wall of the second connector have a fourth gap to form a fourth airflow channel for steam to flow out.
8. The baby food processor according to claim 7, characterized in that: The bottom wall of the machine head and the top wall of the inner cover have a fifth gap to form a fifth airflow channel for steam to flow out, and the machine head is provided with a sixth airflow channel that connects to the outside and allows steam to flow out. The steam inside the inner cup can be discharged to the outside through the third, fourth, fifth and sixth airflow channels in sequence.
9. The baby food processor according to claim 1, characterized in that: The outer cup is made entirely of glass.
10. The baby food processor according to claim 9, characterized in that: The heating assembly includes a heating plate attached to the bottom of the outer cup to achieve heat transfer and a heating tube disposed at the bottom of the heating plate.