CN219270732U - Complementary food machine - Google Patents

Abstract

The disclosure relates to the technical field of food processing and provides a complementary food machine. The complementary food machine is provided with a cup body assembly, a machine body base and a stirring knife assembly; the cup body assembly is detachably arranged on the machine body base, the stirring cutter assembly is detachably arranged in the cup body assembly, the transmission device is arranged at the bottom of the cup body assembly, a first connecting piece is arranged at one end, close to the machine body base, of the transmission device, the other end of the transmission device is connected with the stirring cutter assembly, the driving device is arranged in the machine body base, a second connecting piece is arranged at the top end of the driving device, and when the cup body assembly is arranged on the machine body base, the first connecting piece is matched and connected with the second connecting piece, so that the driving device drives the transmission device to enable the stirring cutter assembly to rotate in the cup body assembly, the driving force of the driving device is finally transmitted to the stirring cutter assembly in the cup body assembly through the transmission device, an output shaft of the driving device in the machine body base is prevented from penetrating into the cup body assembly, and convenience of separation operation of the cup body assembly and the machine body base is improved.

Description

Complementary food machine

Technical Field

The disclosure relates to the technical field of food processing, in particular to a complementary food machine.

Background

The supplementary food machine is the equipment commonly used of supplementary food processing of infant, and is usually including the base that is equipped with the motor, stirring cup and place the supplementary food basin of supplementary food, is equipped with stirring blade in the supplementary food basin, and the output shaft of motor stretches out from the base, inserts from the bottom of stirring cup and is connected with stirring blade in the supplementary food basin, puts into edible material in the supplementary food basin, stirs edible material and makes the supplementary food through stirring blade. Because the output shaft inserts from the lower extreme of stirring cup to make stirring cup be difficult to with the base separation, influenced the supplementary food processing after accomplishing, the user is convenient to shift to other places with supplementary food in the stirring cup, has influenced user's use experience.

Disclosure of Invention

In order to solve the above technical problems or at least partially solve the above technical problems, the present disclosure provides a complementary food machine.

The present disclosure provides a complementary food machine, comprising a cup body assembly, a machine body base and a stirring knife assembly;

the utility model discloses a stirring cutter assembly, including organism base, cup subassembly, drive arrangement, stirring cutter assembly, drive arrangement, when the cup subassembly is detachable set up in on the organism base, stirring cutter assembly detachable set up in the cup subassembly, the bottom of cup subassembly is equipped with transmission, transmission is close to the one end of organism base is equipped with first connecting piece, the other end with the stirring cutter assembly is connected, be equipped with drive arrangement in the organism base, drive arrangement's top be equipped with first connecting piece complex second connecting piece, when the cup subassembly install in on the organism base, first connecting piece with the cooperation of second connecting piece is connected, so that drive arrangement drives stirring cutter assembly is in the rotation of cup subassembly.

Optionally, the first connecting piece includes a first base and a plurality of first protrusions, the first base is disposed at the bottom of the transmission device, the plurality of first protrusions are disposed around the center of the first base on a surface of the first base opposite to the machine body base, and a first installation gap is formed between every two adjacent first protrusions;

The second connecting piece comprises a second base and a plurality of second bulges, the second base is arranged at the top of the machine body base and is connected with the output end of the driving device, the second bulges are arranged on one surface, opposite to the cup body assembly, of the second base around the center of the second base, and a second installation gap is formed between every two adjacent second bulges;

when the cup body assembly is placed on the machine body base, the first protrusion is inserted into the second installation gap, and the second protrusion is inserted into the first installation gap.

Optionally, be equipped with supplementary food basin subassembly in the cup subassembly, the basin mouth department of supplementary food basin subassembly is equipped with the air vent, the air vent is suitable for the vapor to pass through and get into the inside of supplementary food basin subassembly, supplementary food basin subassembly install in the top of cup subassembly, stirring sword subassembly set up in the supplementary food basin subassembly.

Optionally, the complementary food basin assembly is further provided with a grabbing portion and a diversion portion, and the grabbing portion extends along the radial direction of the complementary food basin assembly towards the direction away from the center of the complementary food basin assembly, and the diversion portion extends towards the direction away from the bottom of the complementary food basin assembly.

Optionally, the supplementary food basin subassembly includes supplementary food basin and auxiliary stand, the supplementary food basin set up in the cup subassembly, the auxiliary stand set up in the pelvic floor department of supplementary food basin, the pelvic floor department of supplementary food basin is equipped with the air vent, the air vent is located the center of supplementary food basin with between the auxiliary stand, the stirring sword subassembly set up in the inside of supplementary food basin, snatch with the water conservancy diversion portion set up in on the auxiliary stand.

Optionally, the auxiliary support is further provided with a locking structure, and when the complementary food basin assembly is placed in the cup body assembly, the locking structure is connected with the cup body assembly.

Optionally, the center of supplementary food basin is equipped with the location arch, stirring sword subassembly with the location is protruding to rotate to be connected, be equipped with the transmission through-hole on the location arch, be suitable for transmission device's driving end passes the transmission through-hole is connected with stirring sword subassembly rotation.

Optionally, the lateral wall of supplementary food basin is kept away from a side edge of the basin bottom of supplementary food basin is kept away from the inside direction of supplementary food basin turns over a formation skirtboard, the auxiliary stand with the skirtboard is connected, be equipped with on the skirtboard the air vent, the quantity of air vent is a plurality of, a plurality of the air vent is in follow on the skirtboard the circumference interval setting of supplementary food basin, the air vent is located the lateral wall of supplementary food basin with between the auxiliary stand.

Optionally, the cup subassembly includes cup shell and cup inner bag, the cup inner bag set up in inside the cup shell, transmission set up in the bottom of cup shell, part transmission is located the inside of cup inner bag, the supplementary food basin subassembly set up in the cup inner bag, part transmission pass the supplementary food basin subassembly with the stirring sword subassembly is connected.

Optionally, the cup body assembly further comprises a cup cover, the cup cover covers the complementary food basin assembly, air holes are formed in the cup cover and are suitable for reducing pressure inside the cup body assembly, a safety device is further arranged on the cup cover, and when the cup cover is connected with the complementary food basin assembly, the safety device is connected with the cup body assembly, and a circuit of the driving device is communicated.

Optionally, the transmission includes transmission base, transmission shaft and transmission arch, the transmission base set up in the bottom of cup subassembly, the transmission shaft rotate set up in on the transmission base, the transmission base with the relative one side of organism base is equipped with first connecting piece, first connecting piece with the transmission shaft is connected, the transmission arch set up in the transmission shaft is kept away from the one end of transmission base, the transmission shaft passes on the location arch the transmission through-hole, so that the transmission arch gets into the inside of supplementary food basin subassembly with stirring sword subassembly is connected.

Optionally, the stirring sword subassembly includes rotation portion and a plurality of blade, the center of rotation portion has the rotation passageway, the location arch inserts the rotation passageway, so that rotation portion with the location arch rotates to be connected, and a plurality of the blade is in the side interval setting of rotation portion, the top of rotation passageway is equipped with the draw-in groove, the draw-in groove with the protruding joint of transmission, so that rotation portion with transmission is connected.

Optionally, the transmission device is in sealing connection with the inner container of the cup body, so that a water storage cavity is formed between the inner container of the cup body and the complementary food basin component, and the transmission device is provided with a heating device which is suitable for heating liquid in the water storage cavity.

The complementary food machine provided by the disclosure is provided with a cup body assembly, a machine body base and a stirring knife assembly; the cup body assembly is detachably arranged on the machine body base, the stirring cutter assembly is detachably arranged in the cup body assembly, the transmission device is arranged at the bottom of the cup body assembly, a first connecting piece is arranged at one end, close to the machine body base, of the transmission device, the other end of the transmission device is connected with the stirring cutter assembly, the driving device is arranged in the machine body base, a second connecting piece matched with the first connecting piece is arranged at the top end of the driving device, so that the cup body assembly is arranged on the machine body base, the first connecting piece is matched with the second connecting piece, the driving device drives the transmission device to enable the stirring cutter assembly to rotate in the cup body assembly, and finally driving force of the driving device is transmitted to the stirring cutter assembly in the cup body assembly through the transmission device, so that an output shaft of the driving device in the machine body base penetrates into the cup body assembly, and convenience in separation operation of the cup body assembly and the machine body base is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments of the present disclosure or the solutions in the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is an exploded view of a complementary food processor according to an embodiment of the present disclosure;

FIG. 2 is an exploded view of a cup assembly according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of a cup assembly according to an embodiment of the present disclosure;

FIG. 4 is an exploded view of a complementary bowl assembly according to an embodiment of the present disclosure;

FIG. 5 is a top view of an assembled cup assembly, complementary bowl assembly, and blender blade assembly according to an embodiment of the present disclosure;

FIG. 6 is a front cross-sectional view of a complementary food machine according to an embodiment of the present disclosure;

fig. 7 is a schematic structural diagram of a complementary food machine according to an embodiment of the disclosure.

1, a machine body base; 11. a driving device; 2. a cup assembly; 21. a cup shell; 22. a transmission device; 221. a transmission base; 222. a transmission shaft; 223. a transmission protrusion; 23. an inner container of the cup body; 24. a cup cover; 3. a complementary bowl assembly; 31. supplementary food basin; 311. positioning the bulge; 321. an auxiliary bracket; 322. a gripping part; 323. a flow guiding part; 4. a stirring blade assembly; 41. a rotating part; 42. a blade; 51. a first connector; 52. and a second connecting piece.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, a further description of aspects of the present disclosure will be provided below. It should be noted that, without conflict, the embodiments of the present disclosure and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced otherwise than as described herein; it will be apparent that the embodiments in the specification are only some, but not all, embodiments of the disclosure.

Referring to fig. 1 to 7, an embodiment of the present disclosure provides a complementary food machine including a cup assembly 2, a body base 1, and a stirring blade assembly 4; cup subassembly 2 detachable sets up on organism base 1, stirring sword subassembly 4 detachable sets up in cup subassembly 2, the bottom of cup subassembly 2 is equipped with transmission 22, transmission 22 is close to the one end of organism base 1 and is equipped with first connecting piece 51, the other end is connected with stirring sword subassembly 4, be equipped with drive arrangement 11 in the organism base 1, drive arrangement's top is equipped with the second connecting piece with first connecting piece complex, when cup subassembly 2 is installed on organism base 1, first connecting piece 51 is connected with the cooperation of second connecting piece 52, so that drive arrangement 11 drives transmission 22 and makes stirring sword subassembly 4 rotate in cup subassembly 2.

Specifically, the machine body base 1 can be selected to be cylindrical or rectangular, the cup body assembly 2 can be selected to be cylindrical or rectangular, and the cavity is formed in the cup body assembly 2 for placing the raw materials of the complementary food and the stirring cutter assembly 4; the first connecting piece 51 on the transmission device 22 is used for being connected with the machine body base 1, the other end of the first connecting piece extends into the cup body assembly 2 to be connected with the stirring blade assembly 4, and the driving device 11 can be an electromagnetic motor or a servo motor; the stirring blade assembly 4 can rotate in the horizontal direction in the cup assembly 2 so as to realize that the stirring blade assembly 4 stirs the raw materials of the complementary food in the cup assembly 2, a rotating shaft can be selectively arranged in the cup assembly 2, a rotating channel is arranged on the stirring blade assembly 4, the rotating shaft is inserted into the rotating channel so as to realize that the stirring blade assembly 4 is detachably arranged in the cup assembly 2, a rotating protrusion can be arranged on the stirring blade assembly 4, a rotating groove is formed in the cup assembly 2, the rotating protrusion is inserted into the rotating groove, and the stirring blade assembly 4 is detachably arranged in the cup assembly 2.

The side of the machine body base 1, which is close to the cup body assembly 2, can be selectively provided with the clamping hook, and the side of the shell of the cup body assembly 2, which is close to the machine body base 1, can be selectively provided with the clamping groove, so that the clamping hook is connected with the clamping groove when the cup body assembly 2 is placed on the machine body base 1, and the cup body assembly 2 is detachably connected with the machine body base 1; of course, a plurality of connecting protrusions can be arranged at one end of the cup body assembly 2, which is close to the machine body base 1, a plurality of connecting grooves are arranged at one end of the machine body base 1, which is close to the cup body assembly 2, and the connecting protrusions are in one-to-one correspondence with the connecting grooves, so that when the cup body assembly 2 is placed on the machine body base 1, the connecting protrusions are inserted into the connecting grooves, and the detachable arrangement of the cup body assembly 2 on the machine body base 1 is realized.

The first connecting piece 51 may be selectively provided with a protrusion, the second connecting piece 52 is provided with a groove, and when the first connecting piece 51 is connected with the second connecting piece 52, the protrusion is inserted into the groove to realize that the second connecting piece 52 rotates to drive the first connecting piece 51 to rotate, or the first connecting piece 51 and the second connecting piece 52 may be gears, and the first connecting piece 51 and the second connecting piece 52 are engaged and connected, so that the effect that the second connecting piece 52 drives the first connecting piece 51 to rotate after the driving device 11 drives the second connecting piece 52 to rotate is realized.

When the food stirring machine is specifically used, the cup body assembly 2 is arranged on the machine body base 1, the first connecting piece 51 is connected with the second connecting piece 52 in a matched manner, the stirring cutter assembly 4 is arranged in the cup body assembly 2, raw materials of the complementary food are placed in the cup body assembly 2, the driving device 11 is started, the driving device 11 drives the second connecting piece 52 to rotate, and the second connecting piece 52 drives the stirring cutter assembly 4 to rotate in the cup body assembly 2, so that the raw materials of the complementary food in the cup body assembly 2 are stirred; and after the raw materials of the complementary food are crushed, separating the cup body assembly 2 from the machine body base 1, disassembling the stirring cutter assembly 4, and pouring the complementary food in the cup body assembly 2.

By arranging the cup body component 2, the machine body base 1 and the stirring cutter component 4; the cup body assembly 2 is detachably arranged on the machine body base 1, the stirring blade assembly 4 is detachably arranged in the cup body assembly 2, the transmission device 22 is arranged at the bottom of the cup body assembly 2, one end, close to the machine body base 1, of the transmission device 22 is provided with the first connecting piece 51, the other end is connected with the stirring blade assembly 4, the driving device 11 is arranged in the machine body base 1, the second connecting piece 52 matched with the first connecting piece 51 is arranged at the top end of the driving device, when the cup body assembly 2 is arranged on the machine body base 1, the first connecting piece 51 is connected with the second connecting piece 52 in a matched manner, so that the driving device 11 drives the transmission device 22 to enable the stirring blade assembly 4 to rotate in the cup body assembly 2, finally, the driving force of the driving device 11 is transmitted to the cup body assembly 2 through the transmission device 22, the fact that an output shaft of the driving device 11 in the machine body base 1 penetrates into the cup body assembly 2 is avoided, and convenience in separation operation of the cup body assembly 2 and the machine body base 1 is improved.

Referring to fig. 1 and 6, in some embodiments, the first connection member 51 includes a first base disposed at the bottom of the transmission device 22 and a plurality of first protrusions disposed on a surface of the first base opposite to the body base 1 around the center of the first base, with a first installation gap formed between each two adjacent first protrusions; the second connecting piece 52 comprises a second base and a plurality of second bulges, the second base is arranged at the top of the machine body base 1 and is connected with the output end of the driving device 11, the plurality of second bulges are arranged on one surface of the second base opposite to the cup body assembly 2 around the center of the second base, and a second installation gap is formed between every two adjacent second bulges; when the cup assembly 2 is placed on the body base 1, the first protrusion is inserted into the second installation gap, and the second protrusion is inserted into the first installation gap.

Specifically, the first base may be a cylindrical base, one end of the cylindrical base is connected with the transmission device 22, the other end of the cylindrical base is provided with a plurality of first protrusions, or a rectangular base may be selected, one end of the rectangular base is connected with the transmission device 22, and the other end of the rectangular base is provided with a plurality of first protrusions; the first protrusions may be rectangular or cylindrical, and the plurality of first protrusions may be disposed on the first base at intervals around the center of the first base, the distance between every two adjacent first protrusions may be equal, the width of the first mounting gap may be equal to the width of the second protrusion, or the width of the first mounting gap may be greater than the width of the second protrusion.

The second base may be selected to be cylindrical, or may be selected to be rectangular, one end of the second base is connected to the driving device 11, after the driving device 11 is started, the second base may rotate in a horizontal direction toward the machine body base 1, a plurality of second protrusions are arranged on the second base at intervals around the center of the second base, distances between every two adjacent second protrusions are equal, the width dimension of the second mounting gap may be equal to the width dimension of the first protrusion, or the width dimension of the second mounting gap may be greater than the width dimension of the first protrusion.

The transmission device 22 is arranged at the bottom of the cup body assembly 2, the first connecting piece 51 is arranged at the bottom of the transmission device 22, the transmission end of the transmission device 22 is connected with the first connecting piece 51, when the first connecting piece 51 rotates, the transmission end of the transmission device 22 can also rotate along with the rotation of the first connecting piece 51, and the transmission end of the transmission device 22 is connected with the stirring blade assembly 4, so that the transmission end of the transmission device 22 drives the stirring blade assembly 4 to rotate in the cup body assembly 2.

The first connecting piece 51 and the second connecting piece 52 are oppositely arranged, so that the first protrusions and the second installation gaps are in one-to-one correspondence, and the second protrusions and the first installation gaps are in one-to-one correspondence, so that the first connecting piece 51 and the second connecting piece 52 can be matched and connected when the cup body assembly 2 is placed on the machine body base 1.

The first connecting piece 51 comprises a first base and a plurality of first bulges, the first base is arranged at the bottom of the transmission device 22, and the plurality of first bulges are arranged on one surface of the first base opposite to the machine body base 1 around the center of the first base, so that a first installation gap is formed between every two adjacent first bulges; the second connecting piece 52 comprises a second base and a plurality of second bulges, the second base is arranged on the top of the machine body base 1 and is connected with the output end of the driving device 11, the second bulges are arranged on the opposite surface of the second base and the cup body assembly 2 around the center of the second base, and a second installation gap is formed between every two adjacent second bulges; therefore, when the cup body assembly 2 is placed on the machine body base 1, the first bulge is inserted into the second installation gap, the second bulge is inserted into the first installation gap, and finally, the first bulge of the first connecting piece 51 and the second connecting piece 52 is matched with the plugging connection of the second installation gap and the plugging connection of the second bulge and the first installation gap, so that the driving force applied by the driving device 11 on the second connecting piece 52 is transmitted to the first connecting piece 51 through the tight fit between the first bulge and the second bulge, and finally, the driving end transmitted to the driving device 22 drives the stirring blade assembly 4 to rotate, the driving device 11 inside the machine body base 1 is prevented from extending the output end into the cup body assembly 2 to provide power for the stirring blade assembly 4, and the cup body assembly 2 and the machine body base 1 can be conveniently installed and disassembled, and the convenience of the installation and disassembly operations of the cup body assembly 2 and the machine body base 1 is improved.

Referring to fig. 1, 4 and 5, in some embodiments, a complementary food bowl assembly 3 is provided in a cup assembly 2, a vent hole is provided at a bowl mouth of the complementary food bowl assembly 3, the vent hole is suitable for water vapor to pass through to enter the interior of the complementary food bowl assembly 3, the complementary food bowl assembly 3 is mounted on top of the cup assembly 2, and a stirring blade assembly 4 is provided in the complementary food bowl assembly 3; specifically, the bottom of the auxiliary food basin assembly 3 can be selected to be round, the basin mouth is also round, the bottom of the auxiliary food basin assembly 3 can be selected to be rectangular, the basin mouth is round, the side wall of the auxiliary food basin assembly 3 can be selected to be obliquely arranged on the bottom of the basin, and the side wall of the auxiliary food basin assembly 3 can be selected to be perpendicular to the bottom of the basin.

The vent holes can be selected to be round, or rectangular, or a plurality of vent holes can be arranged on the auxiliary food basin assembly 3, the vent holes are arranged at the basin mouth of the auxiliary food basin assembly 3 at intervals around the center of the auxiliary food basin assembly 3, or a vent hole can be arranged at the basin mouth of the swelling assembly 1; the vent hole can be selected to be arranged at the side wall of the auxiliary food basin assembly 3 close to the basin mouth, and the basin mouth of the auxiliary food basin assembly 3 can be folded towards the direction far away from the center of the auxiliary food basin assembly 3 to form a skirt board, so that the vent hole is arranged on the skirt board.

Be equipped with the supplementary food basin subassembly 3 in the cup subassembly 2, the basin mouth department of supplementary food basin subassembly 3 is equipped with the air vent, the air vent is suitable for the vapor to pass through and get into the inside of supplementary food basin subassembly 3, the vapor that produces when making the supplementary food machine carry out heating operation moves along the side of supplementary food basin subassembly 3 after contacting supplementary food basin subassembly 3, finally, make the vapor get into the inside of supplementary food basin subassembly 3 through the air vent and heat the supplementary food in the supplementary food basin subassembly 3, and the temperature of vapor contact supplementary food basin subassembly 3 promotes the supplementary food in the supplementary food basin subassembly 3 of supplementary food of temperature, the time that the supplementary food machine carries out heating operation has been reduced, the efficiency of supplementary food in the supplementary food basin subassembly 3 of supplementary food machine heating has been promoted, the supplementary food machine heating consumption has been reduced, user's use experience has been promoted.

Referring to fig. 1, 4 and 5, in still other embodiments, a grabbing portion 322 and a guiding portion 323 are disposed at a basin opening of the auxiliary food basin assembly 3, the grabbing portion 322 extends along a radial direction of the auxiliary food basin assembly 3 towards a direction away from a center of the auxiliary food basin assembly 3, the guiding portion 323 extends towards a basin bottom direction away from the auxiliary food basin assembly 3, specifically, the auxiliary food basin assembly 3 may be selected to be a basin body with a round basin bottom, so as to match with a shape of the cup assembly 2, the grabbing portion 322 may be selected to be a rectangle, or may be selected to be a semicircular panel, a straight edge of the semicircular panel is connected with the basin opening of the auxiliary food basin assembly 3, the guiding portion 323 may be selected to be a rectangular panel, or may be a triangular panel, and one end of an acute angle of the triangle faces a direction away from the basin bottom of the auxiliary food basin assembly 3.

The grabbing part 322 can be selected to be of an integrated structure with the auxiliary food basin assembly 3, or the grabbing part 322 can be fixedly connected to the basin mouth of the auxiliary food basin assembly 3 through glue, and the grabbing part 322 extends in the radial direction of the auxiliary food basin assembly 3 in the direction away from the center of the auxiliary food basin assembly 3; the guide part 323 can be selected to be of an integrated structure with the complementary food basin assembly 3, and of course, the guide part 323 can also be selected to be fixedly connected in the basin mouth of the complementary food basin assembly 3 through bolts, one end of the cup body assembly 2, which is far away from the machine body base 1, is the top of the cup body assembly 2, and the top end of the cup body assembly 2 is recessed downwards to form a containing cavity for placing the complementary food basin assembly 3.

The center of the bottom of the auxiliary food basin assembly 3 can be selectively provided with a round hole, the transmission part of the transmission device 22 penetrates through the round hole to enter the auxiliary food basin assembly 3, the stirring knife assembly 4 is arranged in the auxiliary food basin assembly 3 and is connected with the transmission part of the transmission device 22, the bottom of the auxiliary food basin assembly 3 can be selectively provided with a bulge, the top of the bulge is provided with a through hole, the stirring knife assembly 4 is rotationally connected with the bulge, and the transmission end of the transmission device 22 penetrates through the through hole to be connected with the stirring knife assembly 4.

Through set up the supplementary food basin subassembly 3 in cup subassembly 2, basin mouth department at supplementary food basin subassembly 3 is equipped with snatch portion 322 and water conservancy diversion portion 323, and snatch portion 322 extends along the radial direction of supplementary food basin subassembly 3 towards keeping away from the direction at supplementary food basin subassembly 3 center, extend water conservancy diversion portion 323 towards the pelvic floor direction of keeping away from supplementary food basin subassembly 3, and install the top in cup subassembly 2 with supplementary food basin subassembly 3, stirring sword subassembly 4 sets up in supplementary food basin subassembly 3, finally make the supplementary food basin subassembly 3 of the inside of cup subassembly 2 can hold supplementary food raw and other materials and installation stirring sword subassembly 4, and after the supplementary food preparation in the supplementary food basin subassembly 3 is accomplished, can grasp snatch portion 322 with the supplementary food basin subassembly 3 and take out from cup subassembly 2, the supplementary food operation's convenience is shifted after the supplementary food preparation has been accomplished to the slope supplementary food basin subassembly 3 can be poured out along water conservancy diversion portion 323.

Referring to fig. 1, 4 and 5, in some embodiments, the supplementary food bowl assembly 3 includes a supplementary food bowl 31 and an auxiliary support 321, the supplementary food bowl 31 is disposed in the cup assembly 2, the auxiliary support 321 is disposed at a bowl opening of the supplementary food bowl 31, a vent hole is disposed at the bowl opening of the supplementary food bowl 31, the vent hole is located between a center of the supplementary food bowl 31 and the auxiliary support 321, the stirring blade assembly 4 is disposed inside the supplementary food bowl 31, and the grip portion 322 and the guide portion 323 are disposed on the auxiliary support 321.

Specifically, the auxiliary food basin 31 can be selected to be a basin body with a basin bottom and a basin opening being circular, the auxiliary support 321 can be selected to be an annular support, the diameter of the auxiliary support 321 is equal to the basin opening diameter of the auxiliary food basin 31, the auxiliary support 321 is placed on the basin opening of the auxiliary food basin 31, the auxiliary support 321 can be connected with the auxiliary food basin 31 by using bolts, and certainly, the auxiliary support 321 can be connected with the auxiliary food basin 31 by using glue; the grabbing part 322 can be integrated with the auxiliary bracket 321, and the grabbing part 322 can be arranged on the auxiliary bracket 321 in a bolt connection mode; the guide portion 323 may be integrally formed with the auxiliary bracket 321, or the guide portion 323 may be connected to the auxiliary bracket 321 by glue.

The grasping portion 322 may be optionally provided on a side surface of the auxiliary stand 321 away from the center of the auxiliary food bowl 31, or the grasping portion 322 may be optionally provided on a side surface of the auxiliary stand 321 away from the bottom of the auxiliary food bowl 31, as long as the grasping portion 322 extends in the radial direction of the auxiliary food bowl 31 in a direction away from the center of the auxiliary food bowl 31.

Through setting up supplementary food basin subassembly 3 and including supplementary food basin 31 and auxiliary stand 321, set up supplementary food basin 31 in cup subassembly 2, set up auxiliary stand 321 in the pelvic floor department of supplementary food basin 31, the pelvic floor department of supplementary food basin 31 is equipped with the air vent, the air vent is located between the center of supplementary food basin 31 and auxiliary stand 321, and set up stirring sword subassembly 4 in the inside of supplementary food basin 31, simultaneously, grabbing portion 322 and water conservancy diversion portion 323 set up on auxiliary stand 321, finally make grabbing portion 322 and water conservancy diversion portion 323 set up in the pelvic floor department of supplementary food basin 31 through auxiliary stand 321, when needs wash grabbing portion 322 and water conservancy diversion portion 323, only need break away from auxiliary stand 321 and the pelvic floor department of supplementary food basin 31 can carry out the cleaning operation to auxiliary stand 321, grabbing portion 322 and water conservancy diversion portion 323, the user of supplementary food basin subassembly 3 has promoted and has used experience.

Referring to fig. 1, fig. 4 and fig. 7, in some embodiments, a latch structure is further provided on the auxiliary support 321, when the auxiliary food basin assembly 3 is placed in the cup assembly 2, the latch structure is connected with the cup assembly 2, specifically, a latch is selectively provided on a surface of the auxiliary support 321 near the auxiliary food basin 31, the latch is an elastic member, and a latch groove is provided on an outer side of the cup assembly 2, so that the latch abuts against an outer side of the cup assembly 2 in a process of placing the auxiliary food basin assembly 3 in the cup assembly 2, and when the auxiliary food basin assembly 3 is placed in the cup assembly 2, the latch moves to the latch groove, and enters the latch groove under the elastic effect, so as to realize stable connection between the auxiliary food basin assembly 3 and the cup assembly 2; of course, a bulge can be arranged on one surface of the auxiliary support 321, which is close to the auxiliary food basin 31, when the auxiliary food basin component 3 is placed in the cup component 2, the bulge is positioned on the outer side of the cup component 2, a magnet is arranged on one side surface of the bulge, which is close to the cup component 2, an iron sheet is arranged on the shell of the cup component 2, and the auxiliary food basin component 3 and the cup component 2 are stably connected through the magnetic force of the magnet arranged on the auxiliary support 321.

Through still being equipped with the hasp structure on auxiliary stand 321, when making supplementary food basin subassembly 3 place in the inside of cup subassembly 2, hasp structure is connected with cup subassembly 2, and hasp structure makes supplementary food basin subassembly 3 and cup subassembly 2 stably be connected, when having avoided stirring sword subassembly 4 in the supplementary food basin subassembly 3 to rotate, supplementary food basin subassembly 3 rocks and breaks away from cup subassembly 2 even, has promoted the stability of supplementary food machine in the use.

Referring to fig. 1, 3, 4, 5 and 6, in some embodiments, a positioning protrusion 311 is provided at the center of the complementary food basin 31, the stirring blade assembly 4 is rotatably connected with the positioning protrusion 311, a transmission through hole is provided on the positioning protrusion 311, and the transmission device 22 is suitable for being rotatably connected with the stirring blade assembly 4 through the transmission through hole, specifically, the positioning protrusion 311 may be selected to be cylindrical, or of course, the positioning protrusion 311 may be selected to be conical, and the positioning protrusion 311 may be selectively vertically disposed on the bottom of the complementary food basin 31.

The positioning protrusion 311 may be a circular through hole provided at one end of the bottom of the bowl far from the complementary bowl 31 as a transmission through hole, or may be a square through hole, and the transmission end of the transmission device 22 may pass through the transmission through hole to be connected with the stirring blade assembly 4; the middle part of the stirring cutter assembly 4 can be provided with a cylindrical channel, the diameter of the channel is larger than that of the positioning protrusion 311, and the stirring cutter assembly 4 is sleeved on the positioning protrusion 311, so that the stirring cutter assembly 4 rotates around the axial lead of the positioning protrusion 311; it is of course also possible to select the stirring blade assembly 4 to include a rotation shaft and a blade, the blade is disposed on a side of the rotation shaft, the driving end of the driving device 22 is passed through the driving through hole, the rotation shaft of the stirring blade assembly 4 is connected with the driving end, and the rotation shaft of the stirring blade assembly 4 coincides with the axis line of the positioning protrusion 311.

Through being equipped with the location protruding 311 in the center of supplementary food basin 31, rotate stirring sword subassembly 4 and location protruding 311 and be connected, be equipped with the transmission through-hole on the location protruding 311, be suitable for transmission 22 to pass the transmission through-hole and be connected with stirring sword subassembly 4 rotation, finally make the location protruding 311 can provide the support for stirring sword subassembly 4, promoted the stability of stirring sword subassembly 4 when supplementary food basin subassembly 3 internal rotation.

Referring to fig. 4, in some embodiments, a side edge of a side wall of the supplementary food bowl 31 away from the bowl bottom is folded in a direction away from the inside of the supplementary food bowl 31 to form a skirt plate, the auxiliary support 321 is connected with the skirt plate, a plurality of ventilation holes are formed in the skirt plate, the plurality of ventilation holes are arranged on the skirt plate at intervals along the circumferential direction of the supplementary food bowl 31, and the ventilation holes are located between the side wall of the supplementary food bowl 31 and the auxiliary support 321.

Specifically, the radial direction of the auxiliary bowl 31 may be selected to be the width direction of the skirt plate, and the width of the skirt plate may be selected to be 1cm, or 1.5cm, of course; the apron board can be selected to be parallel to the bottom of the auxiliary food basin 31, and an included angle of 15 degrees can be formed between the apron board and the bottom of the auxiliary food basin 31; optionally, a groove may be formed on the auxiliary bracket 321, and the skirt board may be inserted into the groove to connect the skirt board with the auxiliary bracket 321, or, of course, the auxiliary bracket 321 may be placed on the skirt board, and the skirt board and the auxiliary bracket 321 may be connected by glue.

The vent holes can be round through holes formed in the skirt plate, or rectangular through holes formed in the skirt plate, the vent holes are distributed at intervals along the circumferential direction of the auxiliary food basin 31, the distance between every two adjacent vent holes is equal, and the auxiliary support 321 can be connected with one end of the skirt plate away from the side wall of the auxiliary food basin 31, so that the vent holes are located between the side wall of the auxiliary food basin 31 and the auxiliary support 321.

The side wall of the auxiliary food basin 31 is far away from the side edge of the basin bottom of the auxiliary food basin 31, the side edge is turned over to form the apron board in the direction far away from the inside of the auxiliary food basin 31, the auxiliary support 321 is connected with the apron board, the apron board is provided with a plurality of ventilation holes, the ventilation holes are arranged at intervals along the circumference of the auxiliary food basin 31, the ventilation holes are arranged between the side wall of the auxiliary food basin 31 and the auxiliary support 321, the apron board is finally enabled to increase the contact area between the auxiliary support 321 and the auxiliary food basin 31, the stability of connection between the auxiliary support 321 and the auxiliary food basin 31 is improved, the apron board is provided with a plurality of ventilation holes, water vapor generated during heating of an auxiliary food machine can be led into the inside of the auxiliary food basin assembly 3 through the ventilation holes, and the heating speed of the auxiliary food is improved.

Referring to fig. 1, 2, 3, 4, 5 and 6, in some embodiments, the bowl assembly 2 includes a bowl housing 21 and a bowl liner 23, the bowl liner 23 is disposed inside the bowl housing 21, the transmission 22 is disposed at the bottom of the bowl housing 21, a portion of the transmission 22 is disposed inside the bowl liner 23, and when the bowl assembly 3 is disposed in the bowl liner 23, a portion of the transmission 22 is connected to the stirring blade assembly 4 through the bowl assembly 3.

Specifically, the cup shell 21 and the cup liner 23 may be selected to be cylindrical, the cup shell 21 is of a hollow structure, a transmission device 22 is arranged at one end of the cup shell 21, so that a transmission end of the transmission device 22 is positioned inside the cup shell 21, and the upper end of the cup liner 23 is recessed to form a cavity of the cup liner 23 for accommodating the complementary food basin assembly 3; of course, the cup shell 21 may be a cylinder, one end of the cup shell 21 is closed, the transmission device 22 is arranged outside the closed end of the cup shell 21, and a through hole is formed in the closed end of the cup shell 21, so that the transmission end of the transmission device 22 can pass through the through hole to enter the interior of the cup shell.

The end of the cup body liner 23, which is close to the machine body base 1, can be selectively provided with a through hole, so that the driving end of the driving device 22 positioned in the cup body shell 21 passes through the through hole to enter the cup body liner 23, and when the auxiliary food basin assembly 3 is placed in the cup body liner 23, the driving end of the driving device 22 passes through the driving through hole in the auxiliary food basin assembly 3 to enter the auxiliary food basin assembly 3 to be connected with the stirring knife assembly 4.

Through setting up cup subassembly 2 including cup shell 21 and cup inner bag 23, set up cup inner bag 23 in cup shell 21 inside, set up transmission 22 in the bottom of cup shell 21, and partial transmission 22 is located the inside of cup inner bag 23, when supplementary food basin subassembly 3 set up in cup inner bag 23, partial transmission 22 passes supplementary food basin subassembly 3 and is connected with stirring sword subassembly 4, finally make cup shell 21 be located the outside of cup inner bag 23, avoid external dust to get into in the cup inner bag 23, perhaps external force collision leads to the damage of cup inner bag 23.

Referring to fig. 1 and 7, in some embodiments, cup assembly 2 further includes a cap 24, cap 24 covers complementary bowl assembly 3, cap 24 is provided with ventilation holes suitable for reducing the pressure inside cup assembly 2, cap 24 is further provided with a safety device, and when cap 24 is connected with complementary bowl assembly 3, the safety device is connected with cup assembly 2, and the circuit of driving device 11 is connected. Specifically, a circular faceplate may be selected for cap 24, and cap 24 may have a diameter equal to the inner diameter of annular support 321, although cap 24 may have a diameter greater than the inner diameter of annular support 321.

The inner side of the auxiliary bracket 321 can be selectively provided with threads, the side surface of the cup cover 24 is provided with threads, after the cup cover 24 is covered on the auxiliary bracket 321, the cup cover 24 is horizontally rotated, so that the cup cover 24 is stably connected with the auxiliary bracket 321, a magnet can be arranged on one side surface of the auxiliary bracket 321 far away from the bottom of the auxiliary food basin 31, and an iron sheet is arranged on one side surface of the cup cover 24 near the bottom of the auxiliary food basin 31, so that the cup cover 24 is stably connected with the auxiliary bracket 321 through magnetic force when the cup cover 24 is covered on the auxiliary bracket 321.

The safety device can be selected as an electromagnetic conduction device, a magnet is arranged on the cup cover 24, an electromagnetic circuit is arranged in the cup body assembly 2 and the machine body base 1, and only when the cup cover 24 is covered on the auxiliary food basin assembly 3, the magnet on the cup cover 24 attracts a switch in the electromagnetic circuit in the cup body assembly 2 to enable the circuit in the cup body assembly 2 to be in a conduction state, so that the electromagnetic circuit in the machine body base 1 is in a conduction state, and the circuit of the driving device 11 is conducted.

The ventilation holes can be selectively arranged in the center of the cup cover 24, and can be selectively arranged at the edge of the cup cover 24, so long as the effect that the air in the cup body assembly 2 can be discharged out of the cup body assembly 2 through the ventilation holes on the cup cover 24 is achieved.

Through setting up cup subassembly 2 still including bowl cover 24, cover bowl cover 24 on supplementary food basin subassembly 3, be equipped with the bleeder vent on bowl cover 24, be suitable for reducing the inside pressure of cup subassembly 2, and still be equipped with safeties on bowl cover 24, when making bowl cover 24 and supplementary food basin subassembly 3 be connected, safeties are connected with cup subassembly 2, make the circuit intercommunication of drive arrangement 11, finally make bowl cover 24 can block supplementary food in the supplementary food basin subassembly 3 and fly out supplementary food basin subassembly 3 in the stirring in-process, and the bleeder vent can be with vapor discharge cup subassembly 2 when heating supplementary food in the supplementary food basin subassembly 3, avoid the inside atmospheric pressure of cup subassembly 2 too big, safeties can guarantee only when bowl cover 24 covers on supplementary food basin subassembly 3, drive arrangement 11 just can start and drive stirring sword subassembly 4 rotation, avoid stirring sword subassembly 4 pivoted in-process foreign matter entering supplementary food basin subassembly 3 and cause danger.

Referring to fig. 1, 2, 4, 5 and 6, in some embodiments, the transmission device 22 includes a transmission base 221, a transmission shaft 222 and a transmission protrusion 223, the transmission base 221 is disposed at the bottom of the cup shell 21, the transmission shaft 222 is rotatably disposed on the transmission base 221, a first connecting piece 51 is disposed on a surface of the transmission base 221 opposite to the machine body base 1, the first connecting piece 51 is connected with the transmission shaft 222, the transmission protrusion 223 is disposed at an end of the rotation shaft away from the transmission base 221, and the transmission shaft 222 passes through a transmission through hole on the positioning protrusion 311, so that the transmission protrusion 223 enters the interior of the auxiliary food basin assembly 3 to be connected with the stirring knife assembly 4.

Specifically, the transmission base 221 may be selected to be cylindrical, or may be selected to be rectangular, a transmission shaft 222 is disposed at one end of the transmission base 221, a first connecting member 51 is disposed at the other end of the transmission base, the transmission shaft 222 penetrates through the transmission base 221 to be connected with the first connecting member 51, and a transmission protrusion 223 is disposed at one end of the transmission shaft 222 far from the first connecting member 51; optionally, a bearing may be disposed on the transmission base 221, and the transmission shaft 222 passes through the bearing and is disposed on the transmission base 221, so as to realize the rotation connection between the transmission shaft 222 and the transmission base 221, or, of course, a through hole may be disposed on the transmission base 221, and the transmission shaft 222 may be inserted into the through hole to realize the rotation connection between the transmission shaft 222 and the transmission base 221.

The transmission protrusions 223 may be rectangular protrusions, or may be cylindrical protrusions, or the transmission protrusions 223 may be extended in a horizontal direction, or one transmission protrusion 223 may be disposed on the transmission shaft 222, or 4 transmission protrusions 223,4 may be disposed on the transmission shaft at intervals along the circumferential direction of the transmission shaft 222, where the distances between every two transmission protrusions 223 are equal.

The transmission base 221 can be selectively connected to the bottom of the cup shell 21 by using bolts, or the transmission base 221 and the base of the cup shell 21 can be selectively provided with threads, and the transmission base 221 and the cup shell 21 are connected by the threads, after the transmission base 221 is connected with the cup shell 21, the transmission shaft 222 is positioned in the cup shell 21, the transmission shaft 222 passes through the transmission through hole on the positioning protrusion 311 to enable the transmission protrusion 223 to enter the interior of the complementary food basin assembly 3, when the stirring blade assembly 4 is sleeved on the positioning protrusion 311, the transmission protrusion 223 is positioned in the channel of the center of the stirring blade assembly 4, and a protrusion can be selectively arranged in the rotating channel of the center of the stirring blade assembly 4 to enable the protrusion to be abutted against the side surface of the transmission protrusion 223, so that the transmission protrusion 223 can drive the stirring blade assembly 4 to rotate; of course, a clamping groove can be optionally arranged in the channel at the center of the stirring blade assembly 4, so that the transmission protrusion 223 is inserted into the clamping groove to be clamped with the stirring blade assembly 4, and the transmission protrusion 223 can drive the stirring blade assembly 4 to rotate.

Through setting up transmission 22 and including transmission base 221, transmission shaft 222 and transmission arch 223, set up transmission base 221 in the bottom of cup shell 21, rotate transmission shaft 222 and set up on transmission base 221, be equipped with first connecting piece 51 in the relative one side of transmission base 221 and organism base 1, be connected first connecting piece 51 and transmission shaft 222, set up transmission arch 223 in the one end that the transmission base 221 was kept away from to the axis of rotation, transmission shaft 222 passes the transmission through-hole on the location arch 311, so that transmission arch 223 gets into the inside of supplementary food basin subassembly 3 and is connected with stirring sword subassembly 4, finally make first connecting piece 51 rotate and can drive transmission shaft 222 and rotate, transmission arch 223 is connected with stirring sword subassembly 4, the rotation of messenger's transmission shaft 222 can drive stirring sword subassembly 4 and rotate in the inside of supplementary food basin subassembly 3, the transmission function of transmission 22 has been realized, the output of drive arrangement 11 in the organism base 1 need pass cup subassembly 2 get into supplementary food basin subassembly 3 just can drive stirring sword subassembly 4 and rotate, make cup subassembly 2 and organism base 1 separate, the use experience of supplementary food machine has been promoted.

Referring to fig. 1, 5 and 6, in some embodiments, the stirring blade assembly 4 includes a rotating part 41 and a plurality of blades 42, the center of the rotating part 41 has a rotating channel, the positioning protrusion 311 is inserted into the rotating channel, the rotating part 41 is rotatably connected with the positioning protrusion 311, the plurality of blades 42 are arranged at intervals on the side surface of the rotating part 41, and the top end of the rotating channel is provided with a clamping groove which is clamped with the transmission protrusion 223, so that the rotating part 41 is in transmission connection with the transmission device 22. Specifically, the rotating portion 41 may be selected to be a cylinder, or the rotating portion 41 may be selected to be a rectangle, the rotating channel at the center of the rotating portion 41 may be selected to be a circular channel, the inner diameter lengths of the channels may be equal along the vertical direction, one end of the rotating channel away from the machine body base 1 is the top end of the rotating channel, or the inner diameter size of the bottom of the rotating channel may be selected to be larger than the inner diameter size of the top of the rotating channel.

The number of the blades 42 may be four or six, but is not limited to selecting other numbers of blades 42, the plurality of blades 42 are disposed at intervals along the circumferential direction of the rotating portion 41 outside the rotating portion 41, the distance between every two adjacent blades 42 is equal, the slot at the top end of the rotating channel may be a plurality of protrusions disposed on the inner wall of the rotating channel, the plurality of protrusions are disposed at intervals along the circumferential direction of the rotating channel, the transmission protrusion 223 is inserted into a gap between two adjacent protrusions, and when the transmission protrusion 223 moves in the horizontal direction, a force in the horizontal direction is applied to the rotating portion 41 to rotate the rotating portion 41 in the horizontal direction, so as to realize transmission connection between the transmission protrusion 223 and the rotating portion 41.

Through setting up stirring sword subassembly 4 and including rotating portion 41 and a plurality of blade 42, the center at rotating portion 41 has the rotation passageway, insert the rotation passageway with location protruding 311, so that rotating portion 41 rotates with location protruding 311 to be connected, a plurality of blade 42 set up at the side interval of rotating portion 41, be equipped with the draw-in groove at the top of rotation passageway, with draw-in groove and transmission protruding 223 joint, so that rotating portion 41 and transmission 22 transmission are connected, finally make rotating portion 41 can rotate around location protruding 311 in the horizontal direction, thereby drive a plurality of blade 42 and stir the raw and other materials of supplementary food in the inside rotation of supplementary food basin subassembly 3, the connection of draw-in groove in transmission protruding 223 and the rotation passageway makes transmission protruding 223 rotate in the horizontal direction, transmission protruding 223 makes rotating portion 41 can rotate in the horizontal direction through exerting pressure to the inner wall of draw-in groove.

Referring to fig. 1, 2, 3 and 6, in some embodiments, the transmission device 22 is in sealing connection with the cup body liner 23 so as to form a water storage cavity between the cup body liner 23 and the complementary food basin assembly 3, the transmission base 221 is provided with a heating device adapted to heat the liquid in the water storage cavity so as to form a water storage cavity between the cup body liner 23 and the complementary food basin assembly 3, the transmission device 22 is provided with a heating device adapted to heat the liquid in the water storage cavity, and the heating device can be a resistance wire or an electric heating coil, specifically, when the water in the water storage cavity is heated, the water vapor rises to contact the complementary food basin assembly 3, so that the temperature of the complementary food basin assembly 3 rises, and the complementary food in the complementary food basin assembly 3 is heated; the bottom end of the cup body liner 23 can be selectively connected with the transmission base 221, the transmission shaft 222 penetrates through the cup body liner 23, and a rubber gasket can be selectively arranged between the transmission shaft 222 and the cup body liner 23 to realize the sealing connection between the transmission device 22 and the cup body liner 23.

Through with transmission 22 and cup inner bag 23 sealing connection to form the water storage chamber between cup inner bag 23 and the supplementary food basin subassembly 3, be equipped with heating device on transmission 22 for the liquid in the heating water storage chamber, the vapor that forms after the final liquid heating in the messenger water storage chamber rises and contacts supplementary food basin subassembly 3, thereby heats the inside supplementary food of supplementary food basin subassembly 3, realizes the supplementary food heating function of supplementary food machine.

When the auxiliary food processing machine is specifically used, raw materials of auxiliary food are placed in an auxiliary food basin 31, a rotating part 41 is sleeved on a positioning protrusion 311 of the cutter auxiliary food basin 31, the auxiliary food basin assembly 3 is placed in a cup body assembly 2, a transmission shaft 222 is used for transmitting a transmission through hole of the positioning protrusion 311, a transmission protrusion 223 is clamped with a clamping groove of a rotating channel of the rotating part 41, the cup body assembly 2 with the auxiliary food basin assembly 3 placed thereon is placed on a machine body base 1, a first connecting piece 51 and a second connecting piece 52 are connected, a cup cover 24 is covered on the auxiliary food basin assembly 3, a safety device on the cup cover 24 is connected with the cup body assembly 2, a driving device 11 is started, a stirring cutter assembly 4 rotates in the auxiliary food basin 31, and the raw materials of the auxiliary food are crushed to prepare the auxiliary food; when the auxiliary food needs to be heated, water is added into the inner container 23 of the cup body, the auxiliary food basin assembly 3 containing the auxiliary food is placed in the cup body assembly 2, the heating device is started, water in the water storage cavity is heated to form water vapor, the water vapor rises to contact the auxiliary food basin assembly 3, and enters the auxiliary food basin 31 through the vent holes in the skirt plate of the auxiliary food basin 31 to directly heat the auxiliary food in the auxiliary food basin 31, so that the auxiliary food is quickly heated to the required temperature, and the heating operation of the auxiliary food is completed.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is merely a specific embodiment of the disclosure to enable one skilled in the art to understand or practice the disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown and described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (13)

1. The complementary food machine is characterized by comprising a cup body assembly (2), a machine body base (1) and a stirring knife assembly (4);

the utility model discloses a cup, including cup subassembly (2), stirring sword subassembly (4), cup subassembly (2), stirring sword subassembly (4) detachable set up in on organism base (1), the bottom of cup subassembly (2) is equipped with transmission (22), transmission (22) are close to one end of organism base (1) is equipped with first connecting piece (51), the other end with stirring sword subassembly (4) are connected, be equipped with drive arrangement (11) in organism base (1), drive arrangement's top be equipped with first connecting piece (51) complex second connecting piece (52), when cup subassembly (2) install in on organism base (1), first connecting piece (51) with second connecting piece (52) cooperation is connected, so that drive arrangement (11) drive transmission (22) make stirring sword subassembly (4) are in-cup subassembly (2).

2. The complementary food machine according to claim 1, characterized in that the first connecting piece (51) comprises a first base and a plurality of first protrusions, the first base is arranged at the bottom of the transmission device (22), the plurality of first protrusions are arranged on the surface of the first base opposite to the machine body base (1) around the center of the first base, and a first installation gap is formed between every two adjacent first protrusions;

The second connecting piece (52) comprises a second base and a plurality of second bulges, the second base is arranged at the top of the machine body base (1) and is connected with the output end of the driving device (11), the second bulges are arranged on one surface, opposite to the cup body assembly (2), of the second base around the center of the second base, and a second installation gap is formed between every two adjacent second bulges;

when the cup body assembly (2) is placed on the machine body base (1), the first protrusion is inserted into the second installation gap, and the second protrusion is inserted into the first installation gap.

3. The complementary food machine according to claim 1, characterized in that a complementary food basin assembly (3) is arranged in the cup assembly (2), a vent hole is arranged at a basin mouth of the complementary food basin assembly (3), the vent hole is suitable for water vapor to pass through and enter the inside of the complementary food basin assembly (3), the complementary food basin assembly (3) is mounted at the top of the cup assembly (2), and the stirring knife assembly (4) is arranged in the complementary food basin assembly (3).

4. A complementary food machine according to claim 3, characterized in that the complementary food bowl assembly (3) is further provided with a gripping portion (322) and a guide portion (323), and the gripping portion (322) extends in a direction away from the center of the complementary food bowl assembly (3) in a radial direction of the complementary food bowl assembly (3), and the guide portion (323) extends in a bowl bottom direction away from the complementary food bowl assembly (3).

5. The machine according to claim 4, wherein the bowl assembly (3) comprises a bowl (31) and an auxiliary support (321), the bowl (31) is arranged in the cup assembly (2), the auxiliary support (321) is arranged at a bowl mouth of the bowl (31), a vent hole is arranged at the bowl mouth of the bowl (31), the vent hole is positioned between the center of the bowl (31) and the auxiliary support (321), the stirring blade assembly (4) is arranged in the bowl (31), and the grabbing part (322) and the guiding part (323) are arranged on the auxiliary support (321).

6. The complementary food machine according to claim 5, characterized in that the auxiliary bracket (321) is further provided with a locking structure, and the locking structure is connected with the cup assembly (2) when the complementary food basin assembly (3) is placed inside the cup assembly (2).

7. The complementary food machine according to claim 5, characterized in that a positioning protrusion (311) is arranged at the center of the complementary food basin (31), the stirring blade assembly (4) is rotatably connected with the positioning protrusion (311), a transmission through hole is arranged on the positioning protrusion (311), and a transmission end of the transmission device (22) penetrates through the transmission through hole and is rotatably connected with the stirring blade assembly (4).

8. The complementary food machine according to claim 5, wherein a side wall of the complementary food basin (31) is far away from a side edge of a basin bottom of the complementary food basin (31) and turned in a direction far away from the inside of the complementary food basin (31) to form a skirt board, the auxiliary support (321) is connected with the skirt board, the skirt board is provided with a plurality of ventilation holes, the ventilation holes are arranged at intervals along the circumferential direction of the complementary food basin (31) on the skirt board, and the ventilation holes are located between the side wall of the complementary food basin (31) and the auxiliary support (321).

9. A complementary food machine according to claim 3, wherein the cup assembly (2) comprises a cup housing (21) and a cup liner (23), the cup liner (23) is arranged inside the cup housing (21), the transmission device (22) is arranged at the bottom of the cup housing (21), part of the transmission device (22) is positioned inside the cup liner (23), and when the complementary food bowl assembly (3) is arranged in the cup liner (23), part of the transmission device (22) passes through the complementary food bowl assembly (3) to be connected with the stirring knife assembly (4).

10. A complementary food machine according to claim 3, wherein the cup assembly (2) further comprises a cup cover (24), the cup cover (24) is covered on the complementary food basin assembly (3), ventilation holes are formed in the cup cover (24) and are suitable for reducing the pressure inside the cup assembly (2), a safety device is further arranged on the cup cover (24), and when the cup cover (24) is connected with the complementary food basin assembly (3), the safety device is connected with the cup assembly (2), and a circuit of the driving device (11) is communicated.

11. The complementary food machine according to claim 7, wherein the transmission device (22) comprises a transmission base (221), a transmission shaft (222) and a transmission protrusion (223), the transmission base (221) is arranged at the bottom of the cup assembly (2), the transmission shaft (222) is rotatably arranged on the transmission base (221), the first connecting piece (51) is arranged on the surface, opposite to the machine body base (1), of the transmission base (221), the first connecting piece (51) is connected with the transmission shaft (222), the transmission protrusion (223) is arranged at one end, away from the transmission base (221), of the transmission shaft (222), and the transmission shaft (222) penetrates through the transmission through hole in the positioning protrusion (311) so that the transmission protrusion (223) enters the interior of the complementary food basin assembly (3) to be connected with the stirring knife assembly (4).

12. The complementary food machine according to claim 11, wherein the stirring blade assembly (4) comprises a rotating part (41) and a plurality of blades (42), a rotating channel is formed in the center of the rotating part (41), the positioning protrusion (311) is inserted into the rotating channel, so that the rotating part (41) is rotationally connected with the positioning protrusion (311), the blades (42) are arranged at intervals on the side face of the rotating part (41), a clamping groove is formed in the top end of the rotating channel, and the clamping groove is clamped with the transmission protrusion (223) so that the rotating part (41) is in transmission connection with the transmission device (22).

13. The complementary food machine according to claim 9, characterized in that the transmission device (22) is in sealing connection with the cup inner container (23) so that a water storage cavity is formed between the cup inner container (23) and the complementary food basin assembly (3), and a heating device is arranged on the transmission device (22) and is suitable for heating liquid in the water storage cavity.

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