CN114711611A - Blanking equipment and cooking equipment - Google Patents

Abstract

The application discloses unloading equipment and cooking equipment, wherein, unloading equipment includes: the storage part is provided with a storage cavity; the body is connected with the material storage part and is provided with a material supply cavity and a material outlet which are communicated, the material supply cavity is communicated with the material storage cavity, and the material outlet is positioned on one side of the body, which is far away from the material storage part; the telescopic assembly is arranged in the feeding cavity; the driving assembly is connected with the telescopic assembly, and the telescopic assembly can stretch out and draw back along the vertical direction to open or close the discharge hole. The application provides a blanking equipment can realize the unloading of flavouring through flexible removal of flexible subassembly along vertical direction, and in the correlation technique, adopt screw extrusion mechanism to realize the unloading and compare, it is lower to unloader's channel length requirement, and blanking equipment's structural dimension is less, and the cost is lower.

Description

Blanking equipment and cooking equipment

Technical Field

The application relates to the technical field of cooking equipment, in particular to blanking equipment and cooking equipment.

Background

At present cooking equipment, especially intelligent cooking equipment includes flavouring unloading mechanism in order to realize intelligent culinary art. Under the general condition, flavouring unloading mechanism adopts screw extrusion mechanism, adopts the unloading mechanism of this structure, has certain requirement to the passageway length of unloading mechanism, and screw extrusion mechanism generally sets up to the horizontal direction, and drive motor sets up in one side of screw rod, needs to adopt gear drive's mode to drive the rotation of unloading screw rod, and unloading structure's size is great like this, and the cost is higher, and during operation vibrations are also great.

Content of application

In view of this, the present application provides a blanking apparatus and a cooking apparatus to realize the function of blanking in the vertical direction.

According to a first aspect of the present application, there is provided a blanking apparatus comprising: the material storage part is provided with a material storage cavity; the body is connected with the material storage part, the body is provided with a material supply cavity and a material outlet which are communicated, the material supply cavity is communicated with the material storage cavity, and the material outlet is positioned on one side of the body, which is far away from the material storage part; the telescopic assembly is arranged in the feeding cavity; the driving assembly is connected with the telescopic assembly, and the telescopic assembly can be opened or closed along the vertical direction in a telescopic mode.

Further, the drive assembly includes a first output shaft; the telescoping assembly comprises: one end of the screw rod is connected with the first output shaft, and the first output shaft can drive the screw rod to rotate; the sliding block assembly is sleeved outside the screw rod and is in threaded fit with the screw rod; the sealing plug is connected with the sliding block component and is positioned at one end, close to the discharge hole, of the sliding block component; the screw rod rotates to enable the sliding block assembly to be far away from the discharge hole or close to the discharge hole, so that the sealing plug opens or closes the discharge hole.

Further, the retraction assembly further comprises: the first stirring part is sleeved outside the sliding block assembly, the screw rod rotates to enable the sealing plug and the first stirring part to be abutted or separated, and the sealing plug can drive the first stirring part to rotate after being abutted by the first stirring part.

Further, one of the slider assembly and the first stirring part is provided with a limiting part, and the other one of the slider assembly and the first stirring part is provided with a positioning part matched with the limiting part, wherein the limiting part and the positioning part are configured to limit the rotation of the slider assembly relative to the first stirring part.

Further, the positioning part comprises a first protruding structure; the limiting part comprises at least one group of two second protruding structures, and the two second protruding structures are distributed at intervals along the circumferential direction of the screw rod and form abdicating grooves; the first protruding structure has a first state located in the receding groove and a second state separated from the receding groove.

Further, a slope structure is arranged on the lower side of the first protruding structure; and/or the two second protruding structures are distributed in a step shape.

Further, the retraction assembly further comprises: the driving assembly further comprises a motor and a cover body assembly sleeved outside the motor, one end of the elastic element is connected or abutted with the cover body assembly, and the other end of the elastic element is connected or abutted with the sliding block assembly; the elastic piece can push the sliding block component, so that the first protruding structure is converted into the first state from the second state.

Furthermore, the sliding block assembly comprises a sliding block and a sliding block limiting sleeve which are connected, and the sliding block is sleeved outside the screw rod and is in threaded connection with the screw rod; the first stirring part comprises a first connecting piece sleeved outside the sliding block limiting sleeve, an impeller sleeved outside the first connecting piece and a stirring head connected below the impeller, and a group of butt joint structures are arranged between the stirring head and the sealing plug; a first bearing is arranged between the impeller and the first connecting piece; wherein, the periphery side of the impeller is provided with a sheet structure.

Further, the unloading equipment still includes: the unidirectional rotating mechanism is sleeved outside the first output shaft of the driving assembly; the driving assembly comprises a motor, and the second stirring part is sleeved outside the motor; the first output shaft is connected with the second stirring part through the one-way rotating mechanism.

Further, the unloading equipment still includes: the first planetary gear set comprises a first gear ring, a first sun gear and a first planetary gear which is connected with the first gear ring and the first sun gear, and the first sun gear is connected with the first output shaft; and the first planet wheel seat is sleeved outside the first gear ring, and the first gear ring is connected with the unidirectional rotating mechanism.

Further, the unidirectional rotation mechanism comprises a unidirectional bearing.

Further, the unloading equipment still includes: the motor mounting frame is arranged between the material storage part and the body and connected with the material storage part and the body; the motor mounting bracket includes that the annular is followed, storage portion with threaded connection is followed to the annular.

Further, the unloading equipment still includes: the mounting bracket is located the middle part of body, first stirring portion is kept away from one side of discharge gate is provided with flexible arch, flexible protruding butt in the mounting bracket.

Further, the unloading equipment still includes: the third stirring portion, drive assembly still includes motor and second output shaft, the second output shaft with drive assembly's first output shaft is located the both ends of motor, third stirring portion with the second output shaft is connected, and is located the storage intracavity.

Further, the unloading equipment still includes: the second planetary gear set comprises a second gear ring, a second sun gear and a second planetary gear connected with the second gear ring and the second sun gear, and the second sun gear is connected with the second output shaft;

and the second planet wheel seat is sleeved outside the second gear ring, and the second gear ring is connected with the third stirring part.

According to a second aspect of the present application, there is provided a cooking apparatus comprising: a controller; and the blanking device of any one of the first aspect, wherein the controller is connected with a driving component of the blanking device.

The application provides an unloading equipment and cooking equipment, through flexible subassembly for first output shaft along the flexible unloading that removes of vertical direction can realize the flavouring, with the correlation technique in, adopt screw extrusion mechanism to realize the unloading and compare, require lowerly to unloader's passage length, the structure size of unloading equipment is less, and the cost is lower. And, because the flexible subassembly removes along vertical direction for drive assembly's drive division along vertical direction setting can, the during operation vibrations are less, and then can reduce the influence to the user, improve the satisfaction that the user used.

The foregoing description is only an overview of the technical solutions of the present application, and the present application can be implemented according to the content of the description in order to make the technical means of the present application more clearly understood, and the following detailed description of the present application is given in order to make the above and other objects, features, and advantages of the present application more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to refer to like parts throughout the drawings. Wherein:

fig. 1 shows a schematic structural diagram of a blanking apparatus according to a first embodiment provided in the present application;

FIG. 2 shows an exploded view of the embodiment of FIG. 1;

fig. 3 shows a schematic structural diagram of a blanking apparatus according to a second embodiment provided in the present application;

fig. 4 shows a schematic structural diagram of a blanking apparatus provided in an embodiment of the present application in a first state;

fig. 5 shows a schematic structural diagram of the blanking apparatus provided in the embodiment of the present application in a second state;

FIG. 6 is a schematic structural diagram illustrating a portion of a telescoping assembly provided by an embodiment of the present application;

FIG. 7 shows an exploded view of the embodiment of FIG. 6;

FIG. 8 is a schematic structural diagram of a second stirring part provided in an embodiment of the present application;

FIG. 9 is a schematic diagram illustrating a seal plug according to an embodiment of the present disclosure;

FIG. 10 is a schematic structural diagram of a second planetary gear set provided by an embodiment of the application;

fig. 11 shows a schematic structural diagram of a part of blanking equipment of the first embodiment provided in the present application;

fig. 12 is a schematic structural diagram of a part of blanking equipment according to a second embodiment provided in the present application;

FIG. 13 illustrates a schematic view of the mating of a first raised structure and a second raised structure of the first embodiment provided herein;

FIG. 14 illustrates a schematic view of the mating of a first raised structure and a second raised structure of a second embodiment provided herein;

fig. 15 shows a schematic view of the cooperation of the first and second projection structures of the third embodiment provided in the present application.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 15 is:

1 blanking device, 110 driving component, 111 cover component, 1111 first cover, 1112 second cover, 1113 connecting plate, 112 motor, 113 first output shaft, 114 second output shaft, 120 unidirectional rotation mechanism, 130 second stirring part, 140 telescopic component, 141 lead screw, 142 slider component, 1421 slider, 1422 slider limiting sleeve, 143 sealing plug, 144 first connecting piece, 145 first stirring part, 1451 flexible bulge, 146 first bearing, 147 elastic piece, 148 first bulge structure, 1481 slope structure, 149 second bulge structure, 1491 guide slope, 150 shaft sleeve bearing, 160 first planetary gear set, 162 first planetary gear seat, 170 third stirring part, 180 second gear set planetary gear set 181, second planetary gear seat, 182 second gear ring, 183 second sun gear, 184 second planetary gear, 190 material storage part, 210 body, 211 discharge port, 220 motor mounting rack, 230 second connecting piece, 240 protective cover.

Detailed Description

In order that the above objects, features and advantages of the present application can be more clearly understood, the present application will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

A blanking apparatus 1 and a cooking apparatus provided according to some embodiments of the present application are described below with reference to fig. 1 to 15. Wherein, unloading equipment 1 is applied to cooking equipment, and cooking equipment can be intelligent cooking equipment, and cooking equipment utilizes unloading equipment 1 can realize the unloading of flavouring, and then realizes intelligent culinary art. Cooking equipment among the correlation technique, under the general condition, flavouring unloading mechanism adopts screw extrusion mechanism, adopts the unloading mechanism of this structure, has certain requirement to the channel length of unloading mechanism, and screw extrusion mechanism generally sets up to the horizontal direction, and driving motor sets up the one side at the screw rod, needs to adopt gear drive's mode to drive the unloading screw rod and rotates, and unloading structure's size is great like this, and is with higher costs, and the during operation vibrations are also great.

In view of this, in a first aspect of the present application, there is provided a blanking apparatus 1 comprising: a material storage part 190 provided with a material storage cavity; the body 210 is connected with the material storage part 190, the body 210 is provided with a material supply cavity and a material outlet 211 which are communicated, the material supply cavity is communicated with the material storage cavity, and the material outlet 211 is positioned on one side of the body 210 far away from the material storage part 190; a telescopic assembly 140 installed in the feeding chamber; and the driving assembly 110 is connected with the telescopic assembly 140, and the telescopic assembly 140 can extend and retract along the vertical direction to open or close the discharge hole 211.

The present application provides a blanking apparatus 1, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, comprising a storage portion 190, a body 210, a driving assembly 110 and a telescopic assembly 140, wherein a seasoning is contained in a storage cavity of the storage portion 190, specifically, the seasoning is a solid seasoning. The body 210 is connected to the material storage portion 190, the material supply chamber of the body 210 is communicated with the material storage chamber, a material outlet 211 communicated with the material supply chamber is arranged on one side of the body 210 away from the material storage portion 190, the telescopic assembly 1140 is installed in the material supply chamber, and the driving assembly 110 is connected to the telescopic assembly 140. When the unloading is needed, the telescopic assembly 140 stretches and retracts in the vertical direction to open the discharge hole 211, the seasoning falls into the designated area through the material supply cavity and the discharge hole 211 under the action of gravity to realize the unloading, and after the unloading is completed, the telescopic assembly 140 stretches and retracts in the vertical direction to close the discharge hole 211, so that the feeding can be stopped. That is to say, this application can realize the unloading of flavouring through flexible subassembly 140 along the flexible removal of vertical direction, and in the correlation technique, adopt screw extrusion mechanism to realize the unloading and compare, the channel length requirement to unloader is lower, and the structure size of unloading equipment 1 is less, and the cost is lower. Moreover, as the telescopic assembly 140 moves along the vertical direction, the driving part of the driving assembly 110 is arranged along the vertical direction, and the vibration is small during working, so that the influence on a user can be reduced, and the use satisfaction of the user can be improved.

In some possible embodiments provided herein, the driving assembly 110 may include a motor 112, the motor is provided with a first output shaft 113, and the first output shaft 113 is the first output shaft 113 of the motor 112. Because flexible subassembly 140 opens discharge gate 211 along the flexible removal of vertical direction, the unloading equipment 1 that this application provided promptly, storage portion 190 and body 210 distribute along vertical downward direction, storage portion 190 is located the top of body 210 promptly, the lower extreme of body 210 is provided with discharge gate 211, and then make the flavouring that holds in the storage cavity can get into the feed cavity under the action of gravity, and when flexible subassembly 140 opened discharge gate 211, supply to the appointed area through discharge gate 211 under the action of gravity, realize the unloading, moreover, the steam generator is simple in structure, the cost is lower, it can understand, drive assembly 110 also is located the inside in feed cavity. .

In some possible implementation embodiments provided herein, the retraction assembly 140 includes: one end of the screw rod 141 is connected with the first output shaft 113, and the first output shaft 113 can drive the screw rod 141 to rotate; the sliding block component 142 is sleeved outside the screw rod 141 and is in threaded fit with the screw rod 141; the sealing plug 143 is connected with the sliding block component 142, and the sealing plug 143 is located at one end of the sliding block component 142 close to the discharge port 211; the screw rod 141 rotates to enable the sliding block assembly 142 to be far away from the discharge hole 211 or close to the discharge hole 211, so that the sealing plug 143 opens or closes the discharge hole 211.

In this embodiment, as shown in fig. 5 and fig. 6, the telescopic assembly 140 includes a screw rod 141, a slider assembly 142, and a sealing plug 143, wherein one end of the screw rod 141 is connected to the first output shaft 113, so that the first output shaft 113 can drive the screw rod 141 to rotate, the slider assembly 142 is sleeved outside the screw rod 141 and is in threaded engagement with the screw rod 141, and the sealing plug 143 is connected to the slider assembly 142 and is located at one end of the slider assembly 142 close to the discharge port 211. It is rotatory to drive lead screw 141 through first output shaft 113, and then drives slider assembly 142 and rotate, moves to the direction of keeping away from discharge gate 211 as slider assembly 142, can make sealed end cap 143 open discharge gate 211, moves to the direction that is close to discharge gate 211 as slider assembly 142, and when sealed end cap 143 and discharge gate 211 butt, can close discharge gate 211. Can realize through lead screw 141 and sliding block set 142 cooperation that sealed end cap 143 opens or closed discharge gate 211, simple structure, the cost is lower, and is lower to the passageway length requirement of flavouring circulation, and then can reduce the volume of equipment, enlarges the application range of product.

Further, as shown in fig. 9, the sealing plug 143 is an elastic member 147, and the elastic sealing plug 143 is beneficial to improving the sealing property of the connection between the sealing plug 143 and the discharge hole 211, so as to improve the reliability of the product and the accuracy of the blanking. Specifically, the sealing plug 143 is a deformable soft material, such as a silicone plug.

In some possible implementation embodiments provided herein, the retraction assembly 140 further comprises: the first stirring portion 145 is sleeved outside the slider assembly 142, the screw rod 141 rotates to enable the sealing plug 143 to be in contact with or separated from the first stirring portion 145, and after the sealing plug 143 is in contact with the first stirring portion 145, the sealing plug 143 can drive the first stirring portion 145 to rotate.

In this embodiment, as shown in fig. 1 to 5, 8 and 9, the telescopic assembly 140 further includes a first stirring portion 145 sleeved outside the slider assembly 142, and the screw rod 141 rotates to enable the sealing plug 143 to contact with or separate from the first stirring portion 145, specifically, when the sealing plug 143 abuts against the first stirring part 145, it is explained that the sealing plug 143 is far from the discharge port 211, that is, the discharge port 211 is opened, the blanking apparatus 1 is in a blanking state, and after the sealing plug 143 abuts against the first stirring section 145, the sealing plug 143 drives the first stirring part 145 to rotate, so that the seasoning in the feeding cavity can be stirred and arch broken to a certain extent, the problem that the seasoning is accumulated in the feeding cavity and is difficult to discharge can be reduced, and the blanking smoothness and blanking efficiency of the seasoning blanking can be improved, the failure rate of products can be reduced, and the using satisfaction of users can be improved. It can be understood that when the sealing plug 143 is separated from the first stirring portion 145, the sealing plug 143 can be moved to a direction close to the discharge hole by the slider assembly 142, and after moving for a while, the sealing plug 143 can abut against and close the discharge hole.

This application is through addding first stirring portion 145, and open the discharge gate back at sealed end cap 143, utilize sealed end cap 143 and first stirring portion 145 looks butt to drive first stirring portion 145 and rotate in order to realize stirring and the broken arch to the flavouring, the setting of first stirring portion 145 driving piece has been simplified, under the circumstances that improves the unloading efficiency and the unloading smoothness of flavouring greatly, the structure of product has been simplified, the volume of equipment has been reduced, and then be favorable to reduce cost, be suitable for popularization and application.

In some possible embodiments provided by the present application, one of the slider assembly 142 and the first stirring portion 145 is provided with a limiting portion, and the other is provided with a positioning portion adapted to the limiting portion, and the limiting portion and the positioning portion are configured to limit the rotation of the slider assembly 142 relative to the first stirring portion 145.

In this embodiment, by providing the limiting portion and the positioning portion on the slider assembly 142 and the first stirring portion 145, the rotation of the slider assembly 142 relative to the first stirring portion 145 is limited by the limiting portion and the positioning portion, so as to ensure that the first stirring portion 145 can be driven to rotate smoothly to realize the function of stirring the seasoning when the sealing plug 143 abuts against the first stirring portion 145. Specifically, on the one hand, the first stirring portion 145 is provided with a limiting portion, the sliding block assembly 142 is provided with a positioning portion, on the other hand, the first stirring portion 145 is provided with a positioning portion, the sliding block assembly 142 is provided with a limiting portion, and different setting positions of the positioning portion and the limiting portion can meet requirements of different structures of the positioning portion, the limiting portion, the first stirring portion 145 and the sliding block assembly 142, so that the use range of products is enlarged.

Further, the positioning portion includes a first protruding structure 148, if the first protruding structure 148 is located outside the slider assembly 142, the limiting portion includes at least one set of second protruding structures 149, and the second protruding structures 149 are located inside the first stirring portion 145, where one set is two, the two second protruding structures 149 are distributed at intervals along the circumferential direction of the screw 141 and form an abdicating groove inside the first stirring portion 145, and specifically, the abdicating groove runs through in the vertical direction. When first protruding structure 148 is in first state, first protruding structure 148 is located the groove of stepping down, and at this moment, slider assembly 142 is restricted and can only be followed the groove of stepping down and remove along vertical direction, if equipment is in unloading reset state, then under the drive of lead screw, finally can make sealed end cap 143 and discharge gate 211 butt and sealed discharge gate 211. When the first protrusion structure 148 is in the second state, the first protrusion structure 148 is disengaged from the relief groove, and at this time, the slider assembly 142 rotates together with the lead screw 141. It can be understood that, before the second protruding structure 149 is separated from the abdicating groove, the screw rod 141 rotates to drive the sealing plug 143 to vertically rotate upwards, and the sealing plug 143 is abutted against the first stirring portion 145, and then after the first protruding structure 148 is separated from the abdicating groove, the sealing plug 143 rotates together with the slider assembly 142, and at the same time, the first stirring portion 145 is driven by the sealing plug 143 to rotate together, so that the stirring and arch breaking of the seasoning in the seasoning supplying cavity are realized. The structure is simple, the cost is low, the realization is easy, the volume of the equipment is greatly reduced, the space occupied by the equipment is favorably reduced, and the application range of the product is expanded. Specifically, first stirring portion 145 is driven by sealed end cap 143 and begins rotatory back, and first stirring portion 145 can not reciprocate along vertical direction during the rotation, can stir the broken arch of solid flavouring bottom first stirring portion 145, is favorable to improving unloading efficiency.

Specifically, the number of the second protruding structures 149 may be one group, two groups, or other values that satisfy requirements, and different numbers of the second protruding structures 149 may satisfy requirements of different sizes of the second protruding structures 149, so that a use range of a product is expanded. It is understood that the first protrusion structure 148 may also be disposed inside the first stirring portion 145, and the second protrusion structure 149 may also be disposed outside the slider assembly 142, which also can achieve the above functions, and therefore, the detailed description thereof is not repeated herein.

In some possible implementation embodiments provided herein, the retraction assembly 140 further comprises: the driving assembly 110 further comprises a motor 112 and a cover assembly 111 sleeved outside the motor 112, one end of the elastic member 147 is connected or abutted with the cover assembly 111, and the other end is connected or abutted with the slider assembly 142; the elastic member 147 can push against the slider assembly 142 to change the first protrusion 148 from the second state to the first state.

In this embodiment, as shown in fig. 11 and 12, the telescopic assembly 140 further includes an elastic member 147, the driving assembly 110 further includes a motor 112 and a cover assembly 111 disposed outside the motor 112, one end of the elastic member 147 is connected to or abutted against the cover assembly 111, and the other end is connected to or abutted against the slider assembly 142, the elastic member 147 can push the slider assembly 142 to switch the first protrusion structure from the second state to the first state, that is, the elastic member 147 has a reset function, and under the action of the elastic member 147, the first protrusion structure 148 can be switched from the state disengaged from the relief groove to the relief groove.

Specifically, when the sealing plug 143 needs to be reset and moved down, that is, the sealing plug 143 needs to close the discharge port 211, in an initial state, the first protrusion 148 is separated from the receding groove, that is, the sealing plug 143 abuts against the first stirring portion 145 to drive the first stirring portion 145 to rotate, in a resetting stage, the slider assembly 142 is pressed by the restoring force of the elastic member 147, in a rotating process, the slider assembly 142 is slowly moved down until the first protrusion 148 is located in the receding groove, and then, the slider assembly 142 is limited to rotate and only can be moved down in the vertical direction, so that a state that the sealing plug 143 seals the discharge port is finally achieved.

Specifically, on one hand, one end of the elastic member 147 is connected to the cover assembly 111, on the other hand, one end of the elastic member 147 is abutted to the cover assembly 111, on the other hand, the other end of the elastic member 147 is connected to the slider assembly 142, on the other hand, the other end of the elastic member 147 is abutted to the slider assembly 142, and on the other hand, different connection modes of the elastic member 147 to the slider assembly 142 and the cover assembly 111 can meet the requirements of different structures of the elastic member 147, different structures of the slider assembly 142, different structures of the cover assembly 111, and different connection positions of the elastic member 147 to the slider assembly 142 and the cover assembly 111, thereby expanding the application range of products. Specifically, the elastic member 147 is a spring, and it is understood that the elastic member 147 may be other elastic structures that meet the requirement.

Specifically, as shown in fig. 12, the first protrusion structure 148 is disposed outside the slider assembly 142, and the lower side of the first protrusion structure is provided with a slope structure 1481, e.g., the slope structure 1481 inclines downward in a clockwise direction, i.e., the bottom of the first protrusion structure 148 is provided with the slope structure 1481, when the direction shown in fig. 4 and the direction viewed from the top to the bottom are taken, the counterclockwise rotation of the slider assembly 142 is a blanking stage, and the reset stage is a clockwise rotation. As shown in fig. 13, the two second protruding structures 149 are distributed in a step shape, and if the step shape is inclined upwards along the counterclockwise direction, that is, the left side of the two second protruding structures 149 of the abdicating slot is higher than the right side thereof, and the distance difference between the two second protruding structures 149 is shown as d in fig. 13, so that the first protruding structure 148 can smoothly enter the abdicating slot and be clamped inside the abdicating slot by the first arrangement. It will be appreciated that providing the right second projection with a guide ramp 1491, as shown in figure 14, also allows the first projection formation 148 to pass smoothly into and be captured within the relief groove. In addition, in the feeding stage, as shown in fig. 15, the inclined surface structure 1481 of the first protrusion structure 148 prevents the first protrusion structure 148 from being pushed into the abdicating groove by the elastic element 147, that is, in the rotation process of the screw rod 141, when the first protrusion structure 148 contacts with the second protrusion structure 149, the inclined surface structure 1481 may guide to make the first protrusion structure 148 lift each time, so as to avoid entering the abdicating groove, and further improve the reliability of the product.

Specifically, as shown in fig. 1 to 5, the cover assembly 111 includes: the cover comprises a first cover 1111 and a second cover 1112, wherein the second cover 1112 is detachably connected with the first cover 1111, the motor 112 is located in an accommodating cavity formed by the first cover 1111 and the second cover 1112, and the first output shaft 113 penetrates through the second cover 1112. That is, the first cover 1111 is located above the second cover 1112, and one end of the elastic member 147 is connected to or abutted against the second cover 1112. Further, a protective cover 240 is further included, which is located above the motor 112, and the protective cover 240 covers the upper side of the motor 112, so that a certain sealing and protecting effect is achieved, and seasoning can be prevented from entering the motor 112 and causing a failure.

In some possible embodiments provided by the present application, the slider assembly 142 includes a slider 1421 and a slider stop collar 1422, which are connected to each other, and the slider 1421 is sleeved outside the lead screw 141 and is in threaded connection with the lead screw 141; the first stirring part 145 comprises a first connecting piece 144 sleeved outside the slider limiting sleeve 1422, an impeller sleeved outside the first connecting piece 144, and a stirring head connected below the impeller, wherein a group of butt joint structures are arranged between the stirring head and the sealing plug 143; a first bearing 146 is arranged between the impeller and the first connecting piece 144; wherein, the periphery of the impeller is provided with a sheet structure.

In this embodiment, as shown in fig. 7, the sliding block assembly 142 includes a sliding block 1421 and a sliding block limiting sleeve 1422 that are connected to each other, the sliding block 1421 is sleeved outside the screw rod 141 and is in threaded connection with the screw rod 141, the first stirring portion 145 includes a first connecting piece 144, an impeller and a stirring head, wherein the first connecting piece 144 is sleeved outside the sliding block limiting sleeve 1422, the impeller is sleeved outside the first connecting piece 144, the stirring head is connected to the impeller and is located below the impeller, a set of butt structures is disposed between the stirring head and the sealing plug 143, a first bearing 146 is disposed between the impeller and the first connecting piece 144, and a sheet structure is disposed on the periphery side of the impeller. Specifically, the first protrusion structure 148 is disposed outside the slider stop 1422, and the second protrusion structure 149 is disposed outside the first connecting element 144. In the blanking stage, the first protruding structure 148 of the slider position limiting sleeve 1422 is located in the abdicating groove, the screw rod rotates to drive the slider position limiting sleeve 1422 to rotate upwards through the slider 1421, and at the moment, the screw rod drives the sealing plug 143 to rotate together; when the first protruding structure 148 is separated from the abdicating groove, and the stirring head is butted with the sealing plug 143, the sealing plug 143 drives the stirring head and the impeller to rotate, the stirring head and the sheet structure stir and break the arch of the seasoning in the feeding cavity, and the feeding efficiency and the feeding smoothness are improved.

Further, as shown in fig. 8, the peripheral side of the impeller is provided with a sheet structure, and the sealing plug 143 can drive the sheet structure and the stirring head to rotate simultaneously to stir the seasoning in the feeding cavity, which is beneficial to improving the stirring area of the first stirring portion 145, and further improving the feeding efficiency and the feeding reliability. It is understood that the sheet-like structure may be linear, curved, fan-shaped, tapered, S-shaped, W-shaped, V-shaped, and other shapes as required, and the present application is not particularly limited thereto.

Specifically, because sealed end cap 143 need drive the stirring head rotatory at vertical rebound to the back of topmost, so, through addding butt joint structure, be favorable to improving the reliability of stirring head and sealed end cap 143 butt, and then improve the reliability of product. It will be appreciated that in some possible embodiments, no abutment structure is provided, and sealing plug 143, when in abutment with the mixing head, also frictionally urges the mixing head to rotate. It can be understood that the abutting structure may be a slot hook structure, or may be another structure meeting the requirement, and the application is not particularly limited.

Specifically, on the one hand, the stirring head can not move up and down relative to the impeller, and the blanking precision is higher due to the arrangement mode. On the other hand, the stirring head can move for the impeller from top to bottom for a short distance, after sealed end cap 143 rises and butts the stirring head, makes a small distance of stirring head lifting, and the setting of this small distance for clearance between the bottom position of stirring head and the inner wall of the bottom of body 210 increases, and then is favorable to quick, smooth and easy unloading, improves unloading efficiency. It will be appreciated that this small distance will need to be reduced again in the subsequent reset phase.

Further, the number of the first bearings 146 is two, and the arrangement of the two first bearings 146 is beneficial to ensuring smooth and reliable rotation between the impeller and the first connecting piece 144, so that the reliability of the product is improved.

Further, the slider 1421 and the slider stop collar 1422 are connected by a key, and it is understood that the two may be connected by other methods meeting the requirement, which is not specifically limited in this application.

Specifically, the body 210 is provided with a guiding portion, such as a guiding inclined plane, specifically, a conical surface, on the periphery of the discharge hole 211, which is beneficial to improving the blanking efficiency. Meanwhile, the shape of the stirring head is matched with that of the guide inclined plane, so that the stirring range and the stirring area are further improved, and good blanking efficiency and blanking effect are further ensured.

In some possible implementation embodiments provided in the present application, the blanking apparatus 1 further includes: the unidirectional rotating mechanism 120 is sleeved outside the first output shaft 113 of the driving component 110; the driving assembly 110 comprises a motor 112, and the second stirring part 130 is sleeved outside the motor 112; the first output shaft 113 and the second stirring part 130 are connected by a unidirectional rotation mechanism 120.

In this embodiment, as shown in fig. 1 to 5, the blanking apparatus 1 further includes a unidirectional rotation mechanism 120 and a second stirring portion 130, the unidirectional rotation mechanism 120 is sleeved outside the first output shaft 113 of the driving assembly 110, the second stirring portion 130 is sleeved outside the motor 112 of the driving assembly 110, since the first output shaft 113 is connected to the second stirring portion 130 through the unidirectional rotation mechanism 120, when the first output shaft 113 rotates and drives the sealing plug 143 to open the discharge port 211, it indicates that the blanking apparatus 1 is in the blanking state, at this time, the first output shaft 113 drives the second stirring portion 130 to rotate through the unidirectional rotation mechanism 120, so that the second stirring portion 130 rotates to stir and arch the seasoning in the feeding cavity, the problem that the seasoning is not easy to be stacked in the feeding cavity can be reduced, and the blanking smoothness and the blanking efficiency can be improved, the failure rate of the product is reduced, and the using satisfaction of a user is improved. Meanwhile, due to the arrangement of the unidirectional rotating mechanism 120, in the process that the first output shaft 113 rotates reversely to drive the sealing plug 143 to close the discharge hole 211, the second stirring part 130 does not rotate, so that the energy is saved, the energy consumption is reduced, the service life of the motor 112 is prolonged, and the reliability of the product is improved.

Specifically, the unidirectional rotation mechanism 120 includes a unidirectional bearing, and it is understood that the unidirectional rotation mechanism 120 may also include other mechanisms that meet the requirements, and the present application is not particularly limited.

Specifically, the circumferential side of the second stirring part 130 is provided with a sheet structure, a grab structure, and the like to realize a stirring function, and it is understood that the specific structure of the second stirring part 130 is not particularly limited in this application. The second stirring part 130 is rotated in one direction to stir or break the arch, and cannot be driven in the reverse direction.

Further, the cover assembly 111 further includes: the connecting plate 1113, the connecting plate 1113 is sleeved outside the first cover 1111 and is located on one side of the second cover 1112 far away from the discharge hole 211, a shaft sleeve bearing 150 is assembled between the connecting plate 1113 and the second cover 1112 in a limiting manner, and the second stirring part 130 and the motor 112 are connected through the shaft sleeve bearing 150. The second stirring part 130 is synchronously connected with the sleeve bearing 150 positioned at the upper part and the unidirectional rotation mechanism 120 positioned at the lower part, so that it can be sleeved outside the motor 112 and simultaneously rotated, wherein the unidirectional rotation effect can be realized by using the unidirectional rotation mechanism 120.

In some possible implementation embodiments provided in the present application, the blanking apparatus 1 further includes: a first planetary gear set 160, the first planetary gear set 160 including a first ring gear, a first sun gear, and a first planetary gear connecting the first ring gear and the first sun gear, the first sun gear being connected to the first output shaft 113; and the first planet wheel seat 162 is sleeved outside the first gear ring, and the first gear ring is connected with the unidirectional rotating mechanism 120.

In this embodiment, as shown in fig. 1 to 5, the first ring gear of the first planetary gear set is connected to the unidirectional rotation mechanism 120, and the first sun gear is connected to the first output shaft 113, so that the rotation of the first output shaft 113 through the unidirectional rotation mechanism 120 can drive the second stirring portion 130 to rotate. The first planetary gear set 160 can realize a speed change function, so that the rotating speed of the second stirring part 130 is within a reasonable range, a good stirring effect is ensured, and the blanking efficiency is improved on the premise of ensuring the reliability of a product.

It can be understood that the first planet carrier 162 is sleeved outside the first ring gear, so as to play a certain protection role, which is beneficial to prolonging the service life of the first planet set 160.

In some possible implementation embodiments provided in the present application, the blanking apparatus 1 further includes: the motor mounting rack 220 is arranged between the material storage part 190 and the body 210 and connected with the material storage part 190 and the body 210; the motor mount 220 includes an annular rim with which the magazine section 190 is threadedly coupled.

In this embodiment, as shown in fig. 1 to 5, the blanking device 1 further includes a motor mounting bracket 220 disposed between the material storage portion 190 and the body 210, the motor mounting bracket 220 is connected with the material storage portion 190 and the body 210, the material storage portion 190 is connected with the motor mounting bracket 220 along the annular thread, so that the material storage portion 190 is detachably connected with the motor mounting bracket 220, and the material storage portion 190 is conveniently detached from the motor mounting bracket 220 for blanking and cleaning and material supplement, so that the operation is convenient, and the satisfaction degree of the user is improved.

It is understood that the middle portion of the motor mounting bracket 220 is a through structure so that the material storage chamber of the material storage portion 190 and the material supply chamber of the body 210 are communicated.

Specifically, the motor 112 is mounted on the motor mount 220 such that the motor 112 can operate reliably. The storing part 190 can be installed on the motor installation frame 220 or detached from the motor installation frame 220 by screwing, the operation is simple and convenient, and the using satisfaction of a user is improved.

In some possible implementation embodiments provided in the present application, the blanking apparatus 1 further includes: the mounting bracket is arranged in the middle of the body 210, a flexible protrusion 1451 is arranged on one side of the first stirring part 145, which is far away from the discharge hole 211, and the flexible protrusion 1451 abuts against the mounting bracket.

In this embodiment, the blanking apparatus 1 further includes a mounting bracket provided at the middle portion of the body 210, and it is understood that the first stirring part 145 and the second stirring part 130 are provided at both sides of the mounting bracket, to improve the strength and reliability of the blanking apparatus 1, wherein, one side of the first stirring part 145 far away from the discharge hole 211 is provided with a flexible projection 1451, the flexible projection 1451 abuts against the mounting frame, the flexible projection 1451 is provided, such that a large portion of the first stirring part 145 (a portion where the flexible protrusions 1451 are not provided) is spaced apart from the mounting frame by a first distance, rotation is facilitated, and, at the same time, since a small portion of the first stirring portion 145 abuts against the mounting bracket by the flexible protrusions 1451, so that, when the user shakes the entire discharging apparatus 1, the first stirring part 145 does not shake and makes a noise, thereby improving the reliability of the product and the comfort level of the user and expanding the market competitiveness of the product.

Specifically, the flexible protrusions 1451 are provided on the first stirring section 145 along the peripheral side of the first output shaft, as if the flexible protrusions 1451 were a one-turn bump structure.

In some possible implementation embodiments provided in the present application, the blanking apparatus 1 further includes: the third stirring part 170, the driving assembly 110 further includes a motor 112 and a second output shaft 114, the second output shaft 114 and the first output shaft 113 of the driving assembly 110 are located at two ends of the motor 112, and the third stirring part 170 is connected with the second output shaft 114 and located in the storage cavity.

In this embodiment, as shown in fig. 1 to 5, the blanking apparatus 1 further includes a third stirring portion 170, the driving assembly 110 further includes a motor 112 and a second output shaft 114, the second output shaft 114 and the first output shaft 113 of the driving assembly 110 are located at two ends of the motor 112, that is, the motor 112 is a dual-output shaft motor, and is connected to the second output shaft 114 through the third stirring portion 170 and located in the storage cavity, so that the third stirring portion 170 is driven by the rotation of the second output shaft 114 to stir and break up the seasoning in the storage cavity, thereby further expanding the stirring range and the stirring area of the seasoning, reducing the problem that the seasoning is not easy to blank when being stacked in the storage cavity, further facilitating to improve the smoothness and blanking efficiency of the seasoning blanking, and reducing the failure rate of the product.

Simultaneously, storage portion 190 is located the top of body 210, the setting of third stirring portion 170, be favorable to reducing the stirring degree of difficulty that is located first stirring portion 145 and second stirring portion 130 in the feed cavity, and then improve the life of second stirring portion 130 and first stirring portion 145, and, third stirring portion 170 and first stirring portion 145, second stirring portion 130 cooperatees, can be to the storage cavity, most flavouring in the feed cavity stirs, stirring area and stirring range have been increased greatly, unloading efficiency is improved, the satisfaction that the improvement user used.

Specifically, the peripheral side of the third stirring portion 170 is provided with a stirring claw, a stirring blade, or other structure that meets the requirements.

In some possible implementation embodiments provided in the present application, the blanking apparatus 1 further includes: a second planetary gear set 180, the second planetary gear set 180 including a second ring gear 182, a second sun gear 183, and a second planetary gear 184 connecting the second ring gear 182 and the second sun gear 183, the second sun gear 183 being connected to the second output shaft 114; and a second planet carrier 181 sleeved outside the second gear ring 182, wherein the second gear ring 182 is connected with the third stirring part 170.

In this embodiment, the blanking apparatus 1 further includes a second planetary gear set 180, which is connected to the third stirring portion 170 through a second gear ring 182 of the second planetary gear set, and a second sun gear 183 is connected to the second output shaft 114, so that the second output shaft 114 rotates to drive the third stirring portion 170 to rotate. The second planetary gear set 180 can realize the speed change function, and then make the rotational speed of third stirring portion 170 in reasonable scope to guarantee good stirring effect, under the prerequisite of guaranteeing the reliability of product, improve unloading efficiency.

It can be understood that the second planet carrier 181 is sleeved outside the second ring gear 182 of the second planetary gear set 180, which plays a certain protection role and is beneficial to improving the service life of the second planetary gear set 180.

Further, the blanking device 1 provided by the application further comprises a motor outgoing line connected with the motor 112, and the motor outgoing line is connected with an external power supply and can provide power for the motor 112. It is understood that the motor 112 may be powered by a built-in battery for the sake of aesthetic enhancement and convenience of use.

According to a second aspect of the present application, there is provided a cooking apparatus comprising: a controller; and the blanking apparatus 1 of any one of the first aspect, the controller is connected with the driving assembly 110 of the blanking apparatus 1.

The application provides a cooking equipment, including the unloading equipment 1 of any embodiment of controller and first aspect, the drive assembly 110 that the controller set up with the unloading is connected, because cooking equipment includes the unloading equipment 1 of any embodiment of first aspect, consequently, has all beneficial technological effects of this unloading equipment 1, and it is unnecessary here to describe repeatedly.

Further, the controller is connected to the motor 112 and controls the operation state of the motor 112, and specifically, controls the rotation and stop of the first output shaft 113 of the motor 112, the rotation and stop of the second output shaft 114, and the rotation direction of the first output shaft 113.

In the specific embodiment provided in the present application, as shown in fig. 1 to 5, the blanking apparatus 1 is a vertical blanking mechanism, that is, the driving motor 112 of the driving assembly 110 is vertically disposed, and the motor 112 is a dual-shaft motor and includes a first output shaft 113 located below and a second output shaft 114 located above. The powdery solid seasoning is stored in the storage portion 190, the storage portion 190 is arranged above the motor 112, a third stirring portion 170 is arranged between the storage portion and a second output shaft 114 of the motor 112, and the third stirring portion 170 extends into the storage cavity to stir or arch the powdery solid seasoning. Body 210 is connected with storage portion 190 and is located the below of storage portion 190, and motor 112 sets up in body 210, and flexible subassembly 140 sets up in biax motor 112 below and is connected through first output shaft 113, and the periphery of flexible subassembly 140 is provided with first stirring portion 145, is provided with second stirring portion 130 between the outside of motor 112 and the body 210 to realize the function of stirring unloading.

Specifically, the blanking device 1 mainly includes a storage portion 190, a third stirring portion 170, a motor mounting bracket 220, a first planet wheel set 160, a first cover 1111, a motor 112, a second cover 1112, a connecting plate 1113, a second connecting member 230 (such as a screw), a second planet wheel 184 set 180, a shaft sleeve bearing 150, a second stirring portion 130, a spring, a one-way bearing, a screw rod bracket, a screw rod 141, a sliding block 1421, a sliding block limiting sleeve 1422, a shaft sleeve bearing 150, a mounting bracket, a first stirring portion 145, a sealing plug 143, and the like.

The motor 112 is installed between the first cover 1111 and the second cover 1112, and the first cover 1111 and the second cover 1112 are assembled by a snap. The first cover 1111 is provided with a protruding positioning block, the middle of the connecting plate 1113 is provided with a through hole, and the first cover 1111 is fastened and assembled with the motor mounting rack 220 through screws. The second output shaft 114 is provided with a driving gear, the end surface of the first cover 1111 is provided with a second planetary gear set 180 and a second planetary gear seat 181, and the stirring rod and the driving member installed on the second planetary gear set 180 form a third stirring part 170, so that when the motor 112 rotates, the driving gear of the second output shaft 114 can drive the third stirring part 170 to stir or break the arch of the seasoning in the main body.

The first output shaft 113 of the motor 112 is also provided with a transmission gear, the transmission gear is engaged with the first planetary gear set 160 for transmission, the first planetary gear set 160 is disposed between the second cover 1112 and the first planetary gear seat, and the first planetary gear seat and the second cover 1112 are fixedly assembled. A screw rod 141 mechanism is arranged below a planet wheel shaft of the first planet wheel set 160, and the first planet wheel shaft penetrates through a one-way bearing. A shaft sleeve bearing 150 is limited and assembled between the connecting plate 1113 and the second cover 1112, an assembling groove is formed at the upper end of the second stirring part 130 and used for installing the shaft sleeve bearing 150, and the lower end of the second stirring part 130 is assembled on a flange plane of the one-way bearing, so that the second stirring part 130 can only rotate along with one direction of the first planetary gear set 160 of the motor 112. The lower end of the motor mounting bracket 220 is fixedly assembled with the upper end surface of the body 210 through a rotary buckle structure.

A key groove positioning column is arranged on the sliding block limiting sleeve 1422, the positioning column is matched with a key groove on the sliding block 1421, and the screw rod 141 is in threaded connection with the sliding block 1421. The slider stop collar 1422 is provided with a limiting structure, and can move along the vertical direction of the abdicating groove arranged inside the first stirring part 145. Two groups of first bearings are arranged outside a first connecting piece 144 of the first stirring part 145, an impeller is installed on the outer ring of each first bearing, a stirring head is connected below each impeller, and the first connecting piece 144, the stirring heads and the impellers form the first stirring part 145. A sealing door assembly (a sealing plug 143) is arranged below the screw rod 141 and fixedly assembled on the sliding block limiting sleeve 1422 through screws.

As shown in fig. 4 and 5, when the motor 112 rotates counterclockwise, the movable element of the lead screw 141 moves vertically downward due to the load and the limiting structure, and when the movable element moves to the end position, the sealing plug 143 is pressed to plug the discharge hole (the sealing door assembly is made of a deformable soft material) of the body 210.

As shown in fig. 4 and 5, when the motor 112 rotates clockwise, the slider assembly 142 of the lead screw 141 moves vertically upward due to the load applied by the spring, and when the lead screw 141 moves to the upper end position, the top end of the lead screw 141 contacts the slider stop 1422, the mechanism is locked and is in a locked state, and the lead screw 141, the slider 1421 of the lead screw 141 and the slider stop 1422 rotate clockwise synchronously. The stirring shaft sleeve rotates along with the one-way bearing. The sealing plug 143 is matched with a pawl mechanism arranged on the stirring head at the bottom of the first stirring part 145, the sealing plug 143 drives the stirring head to rotate clockwise, quantitative blanking can be achieved while stirring, and the quantitative blanking function is achieved. Specifically, the arrows in fig. 4 and 5 represent the direction of the condiment feed flow, i.e., the direction of the feed channel. Fig. 4 shows a state where the sealing plug closes the feed opening, and fig. 5 shows a state where the sealing plug opens the feed opening.

In the description of the present application, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships that are based on the orientations or positional relationships illustrated in the drawings, and are used only for convenience in describing the present application and for simplification of description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be interpreted as limiting the present application; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this application, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (12)

1. A blanking apparatus (1), characterized in that it comprises:

a material storage part (190) provided with a material storage cavity;

the body (210) is connected with the material storage part (190), the body (210) is provided with a material supply cavity and a material outlet (211) which are communicated, the material supply cavity is communicated with the material storage cavity, and the material outlet (211) is positioned on one side of the body (210) far away from the material storage part (190);

a telescopic assembly (140) mounted in the feeding chamber;

the driving assembly (110) is connected with the telescopic assembly (140), and the telescopic assembly (140) can stretch in the vertical direction to open or close the discharge hole (211).

2. Blanking device (1) according to claim 1,

the drive assembly (110) comprises a first output shaft (113);

the retraction assembly (140) comprises:

one end of the screw rod (141) is connected with the first output shaft (113), and the first output shaft (113) can drive the screw rod (141) to rotate;

the sliding block assembly (142) is sleeved outside the screw rod (141) and is in threaded fit with the screw rod (141);

the sealing plug (143) is connected with the sliding block assembly (142), and the sealing plug (143) is positioned at one end, close to the discharge hole (211), of the sliding block assembly (142);

the screw rod (141) rotates to enable the sliding block assembly (142) to be far away from the discharge hole (211) or close to the discharge hole (211), so that the sealing plug (143) can open or close the discharge hole (211).

3. Blanking apparatus (1) according to claim 2, wherein said telescopic assembly (140) further comprises:

the first stirring part (145) is sleeved outside the sliding block assembly (142), the screw rod (141) rotates to enable the sealing plug (143) to be abutted to or separated from the first stirring part (145), and after the sealing plug (143) is abutted to the first stirring part (145), the sealing plug (143) can drive the first stirring part (145) to rotate.

4. Blanking device (1) according to claim 3,

one of the slider assembly (142) and the first stirring part (145) is provided with a limiting part, and the other is provided with a positioning part matched with the limiting part, and the limiting part and the positioning part are configured to limit the rotation of the slider assembly (142) relative to the first stirring part (145);

the locating portion includes a first raised structure (148);

the limiting part comprises at least one group of two second protruding structures (149), and the two second protruding structures (149) are distributed at intervals along the circumferential direction of the screw rod (141) and form abdicating grooves;

the first projection structure (148) has a first state in the relief groove and a second state out of the relief groove;

wherein the underside of the first raised structure (148) is provided with a ramp structure (1481); and/or

The two second protruding structures (149) are distributed in a step shape.

5. Blanking apparatus (1) according to claim 2, wherein said telescopic assembly (140) further comprises:

the driving assembly (110) further comprises a motor (112) and a cover assembly (111) sleeved outside the motor (112), one end of the elastic member (147) is connected or abutted with the cover assembly (111), and the other end of the elastic member (147) is connected or abutted with the sliding block assembly (142);

the elastic piece (147) can push against the sliding block assembly (142) to enable the first protruding structure (148) to be converted from the second state to the first state.

6. Blanking device (1) according to claim 3,

the sliding block assembly (142) comprises a sliding block (1421) and a sliding block limiting sleeve (1422), wherein the sliding block (1421) is connected with the sliding block limiting sleeve, sleeved outside the screw rod (141) and in threaded connection with the screw rod (141);

the first stirring part (145) comprises a first connecting piece (144) sleeved outside the sliding block limiting sleeve (1422), an impeller sleeved outside the first connecting piece (144) and a stirring head connected below the impeller, and a group of butt joint structures are arranged between the stirring head and the sealing plug (143);

a first bearing (146) is arranged between the impeller and the first connecting piece (144);

wherein, the periphery side of the impeller is provided with a sheet structure.

7. Blanking apparatus (1) according to any one of claims 1 to 6, further comprising:

the one-way rotating mechanism (120) is sleeved outside the first output shaft (113) of the driving component (110);

the driving assembly (110) comprises a motor (112), and the second stirring part (130) is sleeved outside the motor (112);

wherein the first output shaft (113) is connected with the second stirring part (130) through the one-way rotating mechanism (120).

8. Blanking apparatus (1) according to claim 7, further comprising:

a first planetary gear set (160), the first planetary gear set (160) comprising a first ring gear, a first sun gear and a first planet gear connecting the first ring gear and the first sun gear, the first sun gear being connected to the first output shaft (113);

the first planet wheel seat (162) is sleeved outside the first gear ring, and the first gear ring is connected with the one-way rotating mechanism (120);

wherein the unidirectional rotation mechanism comprises a unidirectional bearing;

the blanking device (1) further comprises:

the motor mounting rack (220) is arranged between the material storage part (190) and the body (210) and is connected with the material storage part (190) and the body (210);

the motor mounting frame (220) comprises an annular edge, and the material storage part is in threaded connection with the annular edge.

9. Blanking apparatus (1) according to any one of claims 1 to 6, further comprising:

the mounting frame is arranged in the middle of the body (210), one side, away from the discharge hole (211), of the first stirring part (145) is provided with a flexible bulge (1451), and the flexible bulge (1451) abuts against the mounting frame.

10. The blanking apparatus (1) according to any one of claims 1 to 6, further comprising:

the driving assembly (110) further comprises a motor (112) and a second output shaft (114), the second output shaft (114) and the first output shaft (113) of the driving assembly (110) are located at two ends of the motor (112), and the third stirring portion (170) is connected with the second output shaft (114) and located in the material storage cavity.

11. Blanking apparatus (1) according to claim 10, further comprising:

a second planetary gear set (180), the second planetary gear set (180) comprising a second ring gear (182), a second sun gear (183) and a second planetary gear (184) connecting the second ring gear (182) and the second sun gear (183), the second sun gear (183) being connected to the second output shaft (114);

and the second planet wheel seat (181) is sleeved outside the second gear ring (182), and the second gear ring (182) is connected with the third stirring part (170).

12. A cooking apparatus comprising:

a controller; and

blanking apparatus (1) according to any one of the claims 1 to 11, said controller being connected to a drive assembly of said blanking apparatus (1).

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