CN218571995U - Cooking equipment and feeding device - Google Patents

Abstract

The present disclosure relates to a cooking device and a feeding device, the cooking device comprises a feeding device, the feeding device comprises a seasoning box component and a feeding box component; the seasoning box assembly comprises a rack and at least one seasoning box which is sequentially arranged on the rack along the X-axis direction; the top of the seasoning box is higher than the top of the frame; the feeding box assembly comprises a shell arranged on the rack, at least one feeding box positioned at the top of the shell and a moving device positioned in an inner cavity of the shell and configured to drive the feeding box to move along the X-axis direction; the motion device comprises a motion mechanism controlled by the driving mechanism; the projections of the motion mechanism and the seasoning box on a vertical surface parallel to the X axis are partially overlapped with the driving mechanism respectively. Therefore, the structure of the feeding device is compact, and the overall height of the feeding device can be reduced under the condition that the volume of the seasoning box is not reduced, or the volume of the seasoning box is increased under the condition that the overall height of the feeding device is not increased.

Description

Cooking equipment and feeding device

Technical Field

The present disclosure relates to the field of cooking, and more particularly to a cooking apparatus; the disclosure also relates to a feeding device for feeding.

Background

In order to meet different requirements of people on various cooking scenes, related household appliances are developed, and cooking equipment is gradually intelligentized. Such as a dish frying machine, a cooking machine, a wall breaking machine, an intelligent electric cooker and the like.

The existing dish frying machine puts seasonings into a pot through an automatic seasoning box and puts dishes into the pot through an automatic dish putting machine, but the existing automatic seasoning box and the existing automatic dish putting machine are large in size, not compact enough in layout, occupy too large space and are not suitable for being used in a kitchen with small space.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cooking device and feeding device in order to solve the problem that exists among the prior art.

According to a first aspect of the present disclosure, there is provided a cooking apparatus comprising a charging device, the charging device comprising:

the seasoning box assembly comprises a rack and at least one seasoning box which is sequentially arranged on the rack along the X-axis direction; the top of the seasoning box is higher than the top of the rack;

the feeding box assembly comprises a shell arranged on the rack, at least one feeding box positioned at the top of the shell and a moving device positioned in an inner cavity of the shell and configured to drive the feeding box to move along the X-axis direction; the motion device comprises a motion mechanism controlled by a driving mechanism; the projections of the motion mechanism and the seasoning box on a vertical surface parallel to the X axis are partially overlapped with the driving mechanism respectively.

In one embodiment of the disclosure, the shell comprises an avoiding area corresponding to the seasoning box and an extending area which is matched with the top of the rack and extends downwards relative to the avoiding area;

the seasoning box extends into the avoiding area, the moving mechanism is positioned in the position, corresponding to the avoiding area, in the inner cavity of the shell, and the driving mechanism is arranged in the position, corresponding to the extending area, in the inner cavity of the shell.

In one embodiment of the present disclosure, the cooking apparatus further comprises a pan body assembly disposed at one side of the charging device; in the Y-axis direction perpendicular to the X-axis, the extending area is positioned on one side close to the pot body assembly relative to the avoiding area.

In one embodiment of the present disclosure, a central axis a of the moving mechanism in the vertical direction, a central axis b of the seasoning box in the vertical direction, a central axis c of the charging box in the vertical direction, and a central axis d of the driving mechanism in the vertical direction are sequentially arranged in the Y-axis direction.

In one embodiment of the present disclosure, the feeding box assembly further includes a feeding device disposed in the housing and configured to drive the corresponding feeding box to turn to one side of the pot body assembly so as to feed materials into the pot body assembly;

the rotation axis of the feeding device is configured to extend in the X-axis direction and is positioned on one side close to the pot body assembly relative to the central axis d of the feeding box, and the free end of the feeding device is configured to extend in the avoiding area to correspond to the central position of the feeding box.

In one embodiment of the present disclosure, the feeding box assembly further includes a feeding rotating mechanism, the feeding rotating mechanism is configured to drive the feeding device to rotate, and the feeding rotating mechanism is located in the extension area.

In one embodiment of the present disclosure, the feeding rotating mechanism, the feeding device and the driving mechanism are sequentially distributed in the X-axis direction.

In one embodiment of the present disclosure, the moving mechanism includes a synchronous belt assembly and a magnetic attraction bracket, the synchronous belt assembly is configured to drive the magnetic attraction bracket to move on the housing along the X-axis direction under the driving of the driving mechanism;

in the Y-axis direction, the distance between the driving mechanism and the synchronous belt component is larger than the width of each seasoning box.

In one embodiment of the disclosure, the timing belt assembly is in driving connection with the drive mechanism through a drive shaft, and the drive shaft extends from above the avoidance zone to the extension zone.

In one embodiment of the present disclosure, the synchronous belt assembly comprises a pulley and a pulley holder, and a rotating shaft rotatably connecting the pulley to the pulley holder; the bearing is sleeved on the rotating shaft and is respectively positioned on two sides of the belt wheel; the outer ring of the bearing is fixed on the belt wheel support, and the inner ring of the bearing is fixed with the rotating shaft.

In one embodiment of the present disclosure, the bearing is a flange bearing, and a flange edge of an outer ring of the flange bearing abuts against a side wall of the pulley bracket.

In one embodiment of the present disclosure, the seasoning box assembly further comprises a feeding mechanism configured to deliver seasoning in the seasoning box into the pan body assembly;

the frame comprises a seasoning box area far away from one side of the pot body assembly and a pipeline area close to one side of the pot body assembly; the seasoning box is arranged in the seasoning box area, the feeding mechanism is arranged in the pipeline area, and the pipeline area is located at a corresponding position below the extension area.

In one embodiment of the disclosure, the condiment box area is provided with a containing groove, the condiment boxes are configured to be arranged in the containing groove along the X-axis direction, and the top of the condiment box extends out of the containing groove and is higher than the end face of the rack.

In one embodiment of the disclosure, gaps are formed between both sides of the seasoning box and the rack, and between the top of the seasoning box and the feeding box assembly.

According to a second aspect of the present disclosure, there is provided a charging device comprising:

the seasoning box assembly comprises a rack and at least one seasoning box which is sequentially arranged on the rack along the X-axis direction; the top of the seasoning box is higher than the top of the rack;

the feeding box assembly comprises a shell arranged on the rack, at least one feeding box positioned at the top of the shell and a moving device positioned in an inner cavity of the shell and configured to drive the feeding box to move along the X-axis direction; the motion device comprises a motion mechanism controlled by a driving mechanism; the projections of the motion mechanism and the seasoning box on a vertical surface parallel to the X axis are partially overlapped with the driving mechanism respectively.

For the cooking device disclosed by the disclosure, the projections of the movement mechanism and the seasoning box in the feeding device on the vertical surface parallel to the X axis are respectively partially overlapped with the driving mechanism, so that the structure of the feeding device is compact, the overall height of the feeding device can be reduced under the condition that the volume of the seasoning box is not reduced, or the volume of the seasoning box is increased under the condition that the overall height of the feeding device is not increased.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

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

Fig. 1 is a schematic perspective view of a charging device provided by an embodiment of the present disclosure;

FIG. 2 is a perspective view of a seasoning box assembly provided by embodiments of the present disclosure;

fig. 3 is a schematic cross-sectional view of a charging device provided by an embodiment of the present disclosure;

fig. 4 is a schematic partial cross-sectional view of a charging device provided by embodiments of the present disclosure;

FIG. 5 is a schematic view of an internal structure of a magazine assembly provided by an embodiment of the present disclosure;

FIG. 6 is a schematic view of the internal structure of the feeding box, the tray and the feeding device provided by the embodiment of the disclosure;

FIG. 7 is a schematic perspective view of a motion mechanism provided by an embodiment of the present disclosure;

FIG. 8 is a cross-sectional schematic view of a timing belt assembly provided by an embodiment of the present disclosure;

fig. 9 is a bottom schematic view of a magazine assembly provided by embodiments of the present disclosure.

The correspondence between the names and reference numerals of the respective components in fig. 1 to 9 is as follows:

1. a seasoning box assembly; 11. a frame; 12. a seasoning box; 13. a limiting bulge; 14. a feeding mechanism; 15. a seasoning box area; 16. a pipeline area; 17. a weighing mechanism; 2. a feed box assembly; 21. a housing; 211. an avoidance zone; 212. an extension region; 213. a limiting groove; 22. a feeding box; 23. a motion mechanism; 231. a timing belt assembly; 2311. a synchronous belt; 2312. a pulley; 2313. a pulley carrier; 2314. a rotating shaft; 2315. a bearing; 23151. a flange edge; 232. a bracket is magnetically attracted; 24. a drive mechanism; 25. a drive shaft; 26. a feeding device; 27. a feeding rotating mechanism; 28. a tray; 281. a guide groove;

a-the central axis of the kinematic mechanism in the vertical direction;

b-the central axis of the seasoning box in the vertical direction;

c-the central axis of the dosing box in the vertical direction;

d-the central axis of the drive mechanism in the vertical direction.

Detailed Description

Various exemplary embodiments of the present disclosure will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present disclosure unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

Specific embodiments of the present disclosure are described below with reference to the accompanying drawings.

In this document, "upper", "lower", "front", "rear", "left", "right", and the like are used only to indicate relative positional relationships between relevant portions, and do not limit absolute positions of the relevant portions.

In this document, "first", "second", and the like are used only for distinguishing one from another, and do not indicate the degree and order of importance, the premise that each other exists, and the like.

In this context, "equal", "same", etc. are not strictly mathematical and/or geometric limitations, but also include tolerances as would be understood by a person skilled in the art and allowed for manufacturing or use, etc.

The utility model provides a cooking equipment, including feeding device and pot body subassembly, feeding device is used for providing culinary art materials such as condiment and edible material to pot body subassembly. The feeding device mainly comprises a seasoning box component and a feeding box component, wherein the seasoning box component is used for providing seasonings such as water, salt, soy sauce, vinegar and oil into the pot body component, and the feeding box component is used for feeding food materials such as meat and vegetables into the pot body component.

Before cooking, a user injects various seasonings into the seasoning box assembly in advance, and then puts food materials into the feeding box assembly; in the cooking process, the cooking equipment can automatically add seasonings into the pot body assembly, feed food materials on the feeding box assembly into the pot body assembly, and then process the food materials into dishes through operations of stir-frying, heating and the like.

The seasoning box assembly comprises a rack, at least one seasoning box and a feeding mechanism, wherein the seasoning box and the feeding mechanism are sequentially arranged on the rack, the feeding mechanism is used for conveying seasoning in the seasoning box into the pot body assembly, and the top of the seasoning box is higher than the top of the rack, namely the seasoning box protrudes from the top of the rack. The feeding box assembly comprises a shell arranged on the rack, at least one feeding box positioned at the top of the shell, and a moving device and a feeding device which are positioned in an inner cavity of the shell, wherein the moving device is used for driving the feeding box to move at the top of the shell, the moving direction of the feeding box and the arrangement direction of the seasoning boxes are in the same direction, and the feeding device is used for driving the feeding box positioned at the top of the feeding box to turn over towards the pot body assembly, so that food materials in the feeding box are fed into the pot body assembly. The moving device comprises a driving mechanism and a moving mechanism controlled by the driving mechanism, and the projections of the moving mechanism and the seasoning box on a vertical surface parallel to the X axis are partially overlapped with the driving mechanism respectively, so that the moving mechanism, the seasoning box and the driving mechanism are distributed in a staggered way in the vertical direction.

This disclosed cooking equipment, the top of condiment box is higher than the top of frame, and extend to with throw actuating mechanism in the condiment box subassembly on the direction of height part overlap, this makes can improve the volume of condiment box, has reduced the frequency of carrying out the fluid infusion to the condiment box to user's use experience has been improved. From another perspective, the overall height of the feeding device is reduced under the condition that the volume of the seasoning box is not reduced, so that the occupied space of the whole feeding device is reduced, the structure of the whole feeding device is more compact, and the requirement of the public on equipment miniaturization development is met.

For the convenience of understanding, the specific structure and the working principle of the cooking device and the feeding device of the present disclosure are described in detail with reference to fig. 1 to 9 in conjunction with one embodiment.

As shown in fig. 1, the present disclosure provides a feeding device, which is applied to cooking equipment, the cooking equipment removes the feeding device and further comprises a pot body assembly, and the pot body assembly comprises a pot body, a heating device, a stirring device and other structures. The feeding device is used for providing cooking materials such as seasonings and food materials into the pot body.

Specifically, as shown in fig. 1, the feeding device mainly includes a seasoning box assembly 1 and a feeding box assembly 2, the seasoning box assembly 1 is used for supplying seasonings such as water, salt, soy sauce, vinegar and oil into the pot body assembly, and the feeding box assembly 2 is used for feeding food materials such as meat and vegetables into the pot body assembly.

Before cooking, a user injects various seasonings into the seasoning box assembly 1 in advance, and then puts food materials into the feeding box assembly 2; in the cooking process, the cooking equipment can automatically add seasonings into the pot body assembly, feed the food materials on the feeding box assembly 2 into the pot body assembly, and then process the food materials into dishes through operations of stir-frying, heating and the like.

As shown in fig. 2 and 3, the seasoning box assembly 1 includes a frame 11, at least one seasoning box 12 sequentially arranged on the frame 11, and a feeding mechanism 14, wherein the feeding mechanism 14 is used for conveying the seasoning in the seasoning box 12 to the pot body assembly. Specifically, the feeding mechanism 14 may be composed of a feeding pipeline and a feeding pump, two ends of the feeding pipeline are respectively communicated with the seasoning box 12 and the pot body assembly, and the feeding pump conveys the seasoning in the seasoning box 12 to the pot body assembly through the feeding pipeline.

As shown in FIG. 3, in one embodiment of the present disclosure, frame 11 includes a flavor box area 15 on a side away from the pan assembly and a manifold area 16 adjacent to a side of the pan assembly. The seasoning box 12 is arranged in the seasoning box area 15, and the feeding mechanism 14 is arranged in the pipeline area 16. Further, in order to facilitate the mounting and dismounting of the seasoning boxes 12, as shown in fig. 2, the seasoning box area 15 is provided with a containing groove, and at least one seasoning box 12 is arranged in the containing groove along the X-axis direction. Specifically, the accommodating groove is positioned at one side far away from the pan body assembly, the top of the accommodating groove is provided with an opening, and the seasoning box 12 protrudes from the top of the accommodating groove. In one embodiment of the present disclosure, the number of the seasoning boxes 12 is at least two, and each seasoning box 12 is arranged in the accommodating groove along the X-axis direction. Specifically, as shown in fig. 2, the number of the seasoning boxes may be 8, the 8 seasoning boxes are arranged in the accommodating groove along the X-axis direction, and the lengths of the seasoning boxes in the X-axis direction may be the same or different. In order to maximize the volume of the seasoning box 12, as shown in fig. 2 and 3, in one embodiment of the present disclosure, the top of the seasoning box 12 extends from the accommodating groove and is higher than the end surface of the rack 11, and since the volume occupied by the feeding mechanism 14 is small, the feeding pipeline and the feeding pump are both disposed inside the rack 11, not higher than the end surface of the rack 11.

As shown in fig. 3, 4 and 5, the feeding box assembly 2 includes a housing 21 mounted on the frame 11, at least one feeding box 22 located at the top of the housing 21, and a moving device and a feeding device 26 located in an inner cavity of the housing 21, wherein the moving device is configured to move the feeding box 22 at the top of the housing 21, and the feeding device 26 is configured to turn the feeding box 22 at the top thereof toward the pot assembly, so as to feed the food material in the feeding box 22 into the pot assembly. Wherein, the moving direction of the feeding box 22 is also the X-axis direction, the feeding device extends along the X-axis direction as a whole, and when the number of the seasoning boxes 12 or the seasoning boxes 12 needs to be increased, the seasoning boxes can be continuously added along the X-axis direction.

In order to facilitate the moving device to drive the plurality of feeding boxes 22, as shown in fig. 3 and fig. 6, the feeding box assembly 2 further includes a tray 28, the feeding boxes 22 are placed on the tray 28, a guide groove 281 is formed in the bottom of the tray 28, a guide strip (not shown in the figure) matched with the guide groove 281 is arranged on the top of the housing 21, and the guide groove 281 and the guide strip both extend along the X-axis direction. Thus, the movement device can move the tray 28 and the batch cassette 22 on the tray 28 in the X-axis direction.

As shown in fig. 4 and 5, the moving means includes a moving mechanism 23 controlled by a driving mechanism 24. Specifically, as shown in fig. 7, in an embodiment of the present disclosure, the moving mechanism 23 includes a synchronous belt assembly 231 and a magnetic attraction bracket 232, the synchronous belt assembly 231 drives the magnetic attraction bracket 232 to move on the housing 21 along the X-axis direction under the driving of the driving mechanism 24, and the driving mechanism may be a driving motor or the like. The magnetic bracket 232 is provided with bracket magnets, and the tray and the bracket magnets attract each other, so that when the synchronous belt component 231 drives the magnetic bracket 232 to move, the tray 28 can be driven to move on the housing 21 along the X-axis direction. Specifically, as shown in fig. 3 and 5, the tray 28 is disposed above the top of the housing 21, and the magnetic bracket 232 is disposed in the inner cavity of the housing 21, and the two are not in direct contact with each other, but are driven by magnetic attraction.

Specifically, as shown in fig. 7 and 8, in one embodiment of the present disclosure, the timing belt assembly 231 includes a timing belt 2311, a pulley 2312, a pulley support 2313, and a rotation shaft 2314 that rotatably couples the pulley 2312 to the pulley support 2313. The two bearings 2315 are respectively positioned on two sides of the belt wheel 2312, the two bearings 2315 are sleeved on the rotating shaft 2314, the outer rings of the two bearings 2315 are fixed on the belt wheel support 2313, the inner rings of the two bearings 2315 are fixed with the rotating shaft 2314, the two bearings 2315 can support the rotating shaft 2314, and therefore the belt wheel 2312 can be kept analyzed relative to the belt wheel support 2313, and the rotating shaft 2314 can be rotatably connected relative to the belt wheel support 2313. As shown in fig. 7, a fixing opening is formed at one end of at least one of the rotating shafts 2314, and one end of the transmission shaft 25 is inserted into the fixing opening formed in the rotating shaft 2314, so that the purpose that the rotating shaft 2314 is in transmission connection with the output shaft of the driving mechanism 24 through the transmission shaft 25 is achieved.

As shown in fig. 8, in one embodiment of the present disclosure, the bearing 2315 is a flanged bearing, and a flanged edge 23151 of the flanged bearing outer race of the flanged bearing and the normal bearing abuts a side wall of the pulley holder 2313. Like this, two flange bearings can be spacing with band pulley 2312 centre gripping from both sides, prevent that band pulley 2312 from rocking about band pulley support 2313 is inside to reduce the friction between band pulley 2312 and the band pulley support 2313. Since the flange bearing is provided with the flange, the flange bearing can be mounted only from the side where the flange 23151 is provided to the side where the flange 23151 is not provided. Taking the direction in fig. 8 as an example, the mounting sequence of the respective parts is: left flange bearing-pulley 2312-right flange bearing-shaft 2314.

As shown in fig. 5, the feeding device 26 is disposed in the inner cavity of the casing 21, and the feeding device 26 can rotate relative to the casing 21, so as to drive the feeding box 22 at the top thereof to turn over toward the side of the pot assembly, thereby feeding the food material in the feeding box 22 into the pot assembly.

Wherein, can be provided with the magazine magnet or ferromagnet in the feeding box 22, can be provided with the electro-magnet sucking disc on the feeding device 26, when feeding device 26 drove feeding box 22 and overturn to pot body subassembly place one side, the electro-magnet sucking disc can adsorb feeding box 22 on feeding device 26 to prevent that feeding box 22 from dropping to the pot body in the in-process of upset.

In order to drive the feeding device 26 to rotate, as shown in fig. 5, the feeding box assembly 2 is further provided with a feeding rotating mechanism 27, and the feeding rotating mechanism 27 is arranged on one side of the feeding device 26 and can drive the feeding device 26 to rotate.

Since it is ensured that the tray and the feeding boxes above are kept above the casing when each feeding box 22 moves above the feeding device, so as not to slide down on the casing 21, the feeding device 26 needs to be arranged in the middle of the casing 21 in the X-axis direction. Like this, as shown in fig. 5, throw material slewing mechanism 27, throw material device 26 and actuating mechanism 24 and distribute in proper order in the X axle direction, throw material slewing mechanism 27 and actuating mechanism 24 and be located the both sides of throwing material device 26 respectively promptly, like this, both can guarantee to throw material device 26 and set up in the middle part of the organism, can effectively utilize the space in the casing 21 again for each structure is arranged more rationally, prevents the space waste.

As shown in fig. 3 and 4, the projections of the movement mechanism 23 and the seasoning box 12 on the vertical plane parallel to the X axis partially overlap with the driving mechanism 24, respectively. Thus, the volume of the seasoning box 12 can be increased, the frequency of liquid replenishing of the seasoning box 12 is reduced, and the use experience of a user is improved. From another perspective, the overall height of the charging device is reduced without reducing the volume of the flavor cartridge 12, or the volume of the flavor cartridge 12 is increased without increasing the overall height of the charging device.

Further, as shown in fig. 3, 4 and 5, the housing 21 includes an escape area 211 corresponding to the seasoning box 12, and an extension area 212 engaged with the top of the rack 11 and extending downward relative to the escape area 211. Wherein, the avoiding region 211 is located at one side far away from the pan body assembly, the extending region 212 is located at one side close to the pan body assembly, that is, in the Y-axis direction perpendicular to the X-axis, the extending region 212 is located at one side close to the pan body assembly relative to the avoiding region 211. The seasoning box 12 extends upwards to the cavity of the avoiding area 211, the moving mechanism 23 including the timing belt assembly 231 and the magnetic attraction bracket 232 is located in the inner cavity of the housing 21 at a position corresponding to the avoiding area 211, the driving mechanism 24 is located in the inner cavity of the housing 21 at a position corresponding to the extending area 212, and the pipeline area 16 is located at a position corresponding to the lower side of the extending area 212, that is, the feeding mechanism 14 is located below the driving mechanism 24.

Because the top of the seasoning box 12 extends out of the accommodating groove and is higher than the end face of the rack 11, when the seasoning box assembly 2 is placed on the rack 11, the cavity below the avoiding area 211 is aligned with the seasoning box 12, and the seasoning box 12 extends into the avoiding area 211, so that the projection of the seasoning box 12 on the vertical plane parallel to the X axis can be partially overlapped with the driving mechanism 24.

As shown in fig. 2 and fig. 9, in an embodiment of the present disclosure, the upper end surface of the rack 11 is rectangular, and each corner of the upper end surface of the rack 11 is provided with a limiting protrusion 13, the bottom of the corresponding shell 21 is provided with a limiting groove 213 matching with each limiting protrusion 13, when the feeding box assembly 2 is placed on the seasoning box assembly 1, the limiting protrusion 13 is inserted into the limiting groove 213, thereby realizing the relative fixation of the feeding box assembly 2 and the seasoning box assembly 1, and by providing the limiting protrusion 13 and the limiting groove 213, the contact surface between the feeding box assembly 2 and the seasoning box assembly 1 can be reduced, further reducing the flatness requirement of the feeding box assembly 2 and the seasoning box assembly 1, and reducing the manufacturing and processing difficulty.

As shown in fig. 3, in one embodiment of the present disclosure, a central axis a of the movement mechanism 23 in the vertical direction, a central axis b of the flavor cartridge 12 in the vertical direction, a central axis c of the cartridge 22 in the vertical direction, and a central axis d of the drive mechanism 24 in the vertical direction are arranged in order in the Y-axis direction.

With reference to the direction in fig. 3, the movement mechanism 23 of the present disclosure extends in the X-axis direction and is configured to bring the dosing cartridge 22 to move in the X-axis direction. The feeder device 26 extends in the Y-axis direction and is configured to turn the magazine 22 about the X-axis. When the central axis a of the moving mechanism 23 is located on the left side of the central axis b of the seasoning box 12 and the central axis b of the seasoning box 12 is located on the left side of the central axis c of the seasoning box 22, a layout space can be reserved for the charging device 26, the charging device 26 can be matched with the central position of the seasoning box 12, and a sufficient space is provided for the rotation of the charging device 26. Since the drive mechanism 24 is located in the extension area 212 and the seasoning box 12 and the moving mechanism 23 are located in the escape area 211, the central axis d of the drive mechanism 24 is located on the right side of the central axes of the above-mentioned respective structures, which makes it possible to ensure that the seasoning box 12 has a sufficient size in the Y-axis direction, increasing the volume of the seasoning box 12.

As shown in fig. 3 and 4, in one embodiment of the present disclosure, the distance between the driving mechanism 24 and the timing belt assembly 231 is greater than the width of each seasoning box 12 in the Y-axis direction. That is, the length of the driving shaft 25 is greater than the width of each seasoning box 12, so that a sufficient space for arranging the seasoning box 12 and the feeding device 26 can be left, and thus the width of the seasoning box 12 and the length of the feeding device 26 in the Y-axis direction can be increased.

Further, as shown in fig. 3 and 4, in an embodiment of the present disclosure, the transmission shaft 25 between the driving mechanism 24 and the timing belt assembly 231 extends from above the avoiding region 211 to the extending region 212, so that it is effectively ensured that the distance between the driving mechanism 24 and the timing belt assembly 231 is greater than the width of each seasoning box 12.

As shown in fig. 5, the feeding rotation mechanism 27 is also located in the extension area 212, which enables the height of the feeding rotation mechanism 27 in the vertical direction to be larger, and reduces the limitation on the size of the feeding rotation mechanism 27.

As shown in fig. 5 and 6, in an embodiment of the present disclosure, the rotation axis of the feeding device 26 extends in the X-axis direction and is located at a side close to the pan body assembly with respect to the central axis d of the feeding box 22, and the free end of the feeding device 26 is configured to extend in the avoiding region 211 to correspond to the central position of the feeding box 22, so that when the feeding device 26 starts to drive the feeding box 22 to rotate, the center of gravity of the feeding box 22 can fall on the feeding device 26, thereby further preventing the feeding box 22 from sliding off the feeding device 26 and ensuring the feeding device 26 to work normally.

As shown in fig. 3, in one embodiment of the present disclosure, the seasoning box assembly 1 further comprises a weighing mechanism 17, the weighing mechanism 17 being configured to acquire the weight of the seasoning box 12, the weighing mechanism 17 being disposed below the seasoning box 12; gaps are formed between the two sides of the seasoning box 12 and the frame 11 and between the top of the seasoning box 12 and the feeding box component 2. Therefore, the seasoning box 12 cannot interfere with other structures, and the weighing result obtained by the weighing mechanism 17 is more accurate.

The present disclosure further provides a feeding device, and the structure and function of the feeding device refer to the feeding device, which is not described herein again.

Application scenario one

The utility model provides a cooking equipment, including feeding device and pot body subassembly, feeding device is used for providing culinary art materials such as condiment and edible material to pot body subassembly. The feeding device mainly comprises a seasoning box component 1 and a feeding box component 2, wherein the seasoning box component 1 is used for providing seasonings such as water, salt, soy sauce, vinegar and oil into the pot body component, and the feeding box component 2 is used for feeding food materials such as meat and vegetables into the pot body component.

The condiment box assembly 1 comprises a frame 11 and at least one condiment box 12 which is sequentially arranged on the frame 11, wherein the top of the condiment box 12 extends out of a containing groove and is higher than the end surface of the frame 11. The dosing box assembly 2 comprises a housing 21 mounted on the frame 11, at least one dosing box 22 positioned on top of the housing 21, and a moving device positioned in an inner cavity of the housing 21, wherein the moving device is used for driving the dosing box 22 to move on top of the housing 21, and the moving device comprises a moving device including a moving mechanism 23 controlled by a driving mechanism 24.

The projections of the motion mechanism 23 and the seasoning box 12 on a vertical plane parallel to the X axis partially overlap with the drive mechanism 24 respectively. Thus, the volume of the seasoning box 12 can be increased, the frequency of liquid replenishing of the seasoning box 12 is reduced, and the use experience of a user is improved. From another perspective, the overall height of the charging device is reduced without reducing the volume of the flavor cartridge 12, or the volume of the flavor cartridge 12 is increased without increasing the overall height of the charging device.

Application scenario two

The present disclosure provides a cooking apparatus including a feeding device and a pan body assembly. The feeding device comprises a seasoning box assembly 1 and a feeding box assembly 2.

The seasoning box assembly 1 comprises a frame 11 and at least one seasoning box 12 which is sequentially arranged on the frame 11, wherein the top of the seasoning box 12 extends out of the accommodating groove and is higher than the end surface of the frame 11. The frame 11 comprises a seasoning box area 15 at one side far away from the pot body component and a pipeline area 16 at one side near the pot body component, and the seasoning box 12 is arranged in a containing groove of the seasoning box area 15.

The dosing box assembly 2 comprises a housing 21 mounted on the frame 11, at least one dosing box 22 positioned on top of the housing 21, and a moving device positioned in an inner cavity of the housing 21, wherein the moving device is used for driving the dosing box 22 to move on top of the housing 21, and the moving device comprises a moving device including a moving mechanism 23 controlled by a driving mechanism 24.

The housing 21 includes an escape area 211 corresponding to the seasoning box 12, and an extension area 212 engaged with the top of the rack 11 and extending downward relative to the escape area 211. Wherein, the avoiding area 211 is positioned at one side far away from the pan body assembly, and the extending area 212 is positioned at one side close to the pan body assembly. The seasoning box 12 extends upwards to the cavity of the avoiding area 211, the moving mechanism 23 including the timing belt assembly 231 and the magnetic attraction bracket 232 is located in the inner cavity of the housing 21 at a position corresponding to the avoiding area 211, the driving mechanism 24 is located in the inner cavity of the housing 21 at a position corresponding to the extending area 212, and the pipeline area 16 is located at a position corresponding to the lower side of the extending area 212.

Because the top of the seasoning box 12 extends out of the accommodating groove and is higher than the end surface of the rack 11, when the seasoning box assembly 2 is placed on the rack 11, the cavity below the avoiding area 211 is aligned with the seasoning box 12, and the seasoning box 12 extends into the avoiding area 211, so that the projection of the seasoning box 12 on the vertical surface parallel to the X axis can be partially overlapped with the driving mechanism 24.

Having described embodiments of the present disclosure, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein. The scope of the present disclosure is defined by the appended claims.

Claims (15)

1. A cooking apparatus, characterized in that it comprises a charging device comprising:

the seasoning box assembly (1), the seasoning box assembly (1) comprises a rack (11) and at least one seasoning box (12) which is arranged on the rack (11) in sequence along the X-axis direction; the top of the seasoning box (12) is higher than the top of the rack (11);

the feeding box assembly (2) comprises a shell (21) arranged on the rack (11), at least one feeding box (22) positioned at the top of the shell (21), and a moving device positioned in the inner cavity of the shell (21) and configured to drive the feeding box (22) to move along the X-axis direction; the movement device comprises a movement mechanism (23) controlled by a drive mechanism (24); wherein the projections of the motion mechanism (23) and the seasoning box (12) on a vertical surface parallel to the X axis are partially overlapped with the drive mechanism (24) respectively.

2. The cooking apparatus according to claim 1, wherein the housing (21) comprises an escape area (211) corresponding to the seasoning box (12), and an extension area (212) engaged with a top of the housing (11) and extending downward with respect to the escape area (211);

the seasoning box (12) extends into the avoiding area (211), the moving mechanism (23) is positioned in the inner cavity of the shell (21) and corresponds to the avoiding area (211), and the driving mechanism (24) is arranged in the inner cavity of the shell (21) and corresponds to the extending area (212).

3. The cooking apparatus according to claim 2, further comprising a pan body assembly disposed at one side of the charging device; in the Y-axis direction perpendicular to the X-axis, the extension area (212) is positioned at one side close to the pot body assembly relative to the avoidance area (211).

4. The cooking device according to claim 3, wherein a central axis a of the moving mechanism (23) in the vertical direction, a central axis b of the seasoning box (12) in the vertical direction, a central axis c of the charging box (22) in the vertical direction, and a central axis d of the driving mechanism (24) in the vertical direction are arranged in order in the Y-axis direction.

5. The cooking device according to claim 4, wherein the feeding box assembly (2) further comprises a feeding device (26), the feeding device (26) is disposed in the housing (21) and configured to turn the corresponding feeding box (22) to one side of the pot assembly for feeding materials into the pot assembly;

the rotation axis of the feeding device (26) is configured to extend in the X-axis direction and is positioned at one side close to the pot body assembly relative to the central axis d of the feeding box (22), and the free end of the feeding device (26) is configured to extend in the avoiding area (211) to correspond to the central position of the feeding box (22).

6. The cooking apparatus according to claim 5, wherein the dosing block assembly (2) further comprises a dosing rotation mechanism (27), the dosing rotation mechanism (27) is configured to drive the dosing device (26) to rotate, and the dosing rotation mechanism (27) is located at the extension area (212).

7. The cooking apparatus according to claim 6, wherein the charging rotating mechanism (27), the charging device (26) and the driving mechanism (24) are distributed in sequence in the X-axis direction.

8. The cooking apparatus according to claim 5, wherein the moving mechanism (23) comprises a synchronous belt assembly (231) and a magnetic bracket (232), the synchronous belt assembly (231) is configured to drive the magnetic bracket (232) to move on the housing (21) along the X-axis direction under the driving of the driving mechanism (24);

in the Y-axis direction, the distance between the driving mechanism (24) and the synchronous belt assembly (231) is larger than the width of each seasoning box (12).

9. The cooking apparatus according to claim 8, wherein the timing belt assembly (231) is drivingly connected to the drive mechanism (24) by a drive shaft (25), the drive shaft (25) extending from above the escape area (211) to the extended area (212).

10. The cooking apparatus according to claim 8, wherein the timing belt assembly (231) comprises a pulley (2312) and a pulley holder (2313), and a shaft (2314) rotatably connecting the pulley to the pulley holder (2313); the belt wheel further comprises bearings (2315) sleeved on the rotating shaft (2314) and respectively positioned on two sides of the belt wheel (2312); the outer ring of the bearing (2315) is fixed on the belt wheel support (2313), and the inner ring of the bearing is fixed with the rotating shaft (2314).

11. The cooking apparatus according to claim 10, wherein the bearing (2315) is a flanged bearing, a flanged edge (23151) of the flanged bearing outer race abutting a side wall of the pulley cradle (2313).

12. The cooking device according to claim 3, wherein the seasoning box assembly (1) further comprises a feed mechanism (14), the feed mechanism (14) being configured to deliver seasoning within the seasoning box (12) into the pan body assembly;

the frame (11) comprises a seasoning box area (15) far away from one side of the pot body component and a pipeline area (16) close to one side of the pot body component; the seasoning box (12) is arranged in the seasoning box area (15), the feeding mechanism (14) is arranged in the pipeline area (16), and the pipeline area (16) is positioned at a corresponding position below the extension area (212).

13. The cooking apparatus according to claim 12, wherein the seasoning box area (15) is provided with a containing groove, the seasoning boxes (12) are configured to be arranged in the containing groove along the X-axis direction, and the top of the seasoning box (12) protrudes from the containing groove and is higher than the end surface of the rack (11).

14. The cooking device according to claim 12, wherein gaps are formed between both sides of the condiment cartridge (12) and the housing (11), and between the top of the condiment cartridge (12) and the feed cartridge assembly (2).

15. A charging device, comprising:

the seasoning box assembly (1), the seasoning box assembly (1) comprises a rack (11) and at least one seasoning box (12) which is arranged on the rack (11) in sequence along the X-axis direction; the top of the seasoning box (12) is higher than the top of the frame (11);

the feeding box assembly (2) comprises a shell (21) arranged on the rack (11), at least one feeding box (22) positioned at the top of the shell (21), and a moving device which is positioned in an inner cavity of the shell (21) and is configured to drive the feeding box (22) to move along the X-axis direction; the movement device comprises a movement mechanism (23) controlled by a drive mechanism (24); wherein the projections of the motion mechanism (23) and the seasoning box (12) on a vertical surface parallel to the X axis are partially overlapped with the drive mechanism (24) respectively.

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