CN211355031U - Automatic cooking machine's feeding mechanism and automatic cooking machine - Google Patents

Abstract

The utility model discloses an automatic cooking machine's feeding mechanism and automatic cooking machine. This automatic feeding mechanism of machine of cooking includes the frame, the material storage frame, the lead screw, the fitting piece, get the material subassembly, first drive assembly and second drive assembly, the material storage frame is configured to depositing the magazine, the axial both ends of lead screw are connected respectively on two curb plates of the relative setting of frame, the fitting piece is established on the lead screw, the axial direction motion of lead screw can be followed to the fitting piece when the lead screw rotates, it includes the slider and rotates the piece to get the material subassembly, slider slidable ground is established on the fitting piece, it establishes on the slider to rotate the piece rotatable, it inhales the piece to be equipped with on the rotation piece, it inhales the piece to be. The first driving assembly is connected with the lead screw to drive the lead screw to rotate. The second driving assembly is connected with the sliding part to drive the sliding part to slide. The feeding mechanism has good stability, better avoids the phenomenon of pouring out raw materials, has high strength and is not easy to damage.

Description

Automatic cooking machine's feeding mechanism and automatic cooking machine

Technical Field

The utility model relates to a kitchen supplies technical field especially relates to an automatic feeding mechanism and automatic machine of cooking of machine of cooking.

Background

With the development of automation technology, various automatic kitchen equipment is in a large number, and among numerous kitchen equipment, an automatic cooking machine is popular, and the existing automatic cooking machine only needs a user to place materials in a material box, and the automatic cooking machine can convey the material box to a discharging position, so that raw materials in the material box enter a pot of the automatic cooking machine to finish cooking. The stability of the raw material conveying mechanism of the existing automatic cooking equipment is poor, the phenomenon that the raw materials are poured out due to the fact that the raw materials are shaken often occurs in the process of conveying the raw materials, and the existing raw material conveying mechanism is easy to cause fatigue damage, so that the service life of the automatic cooking equipment is shortened.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic feeding mechanism of machine of cooking, this feeding mechanism's stability is better, has avoided the phenomenon that the raw materials poured better to this feeding mechanism's intensity is great, and is not fragile.

Another object of the utility model is to provide an automatic cooking machine, this automatic cooking machine's reliability is stronger, and life is longer.

For realizing the above technical effect, the technical scheme of the utility model as follows:

a feeding mechanism of an automatic cooker comprises: a frame; a magazine configured to store magazines, the magazine being removably coupled to the frame; the two axial ends of the screw rod are respectively connected to the two side plates of the rack, which are arranged oppositely; the matching piece is arranged on the lead screw and can move along the axial direction of the lead screw when the lead screw rotates; the material taking assembly comprises a sliding part and a rotating part, the sliding part is slidably arranged on the matching piece, the rotating part is rotatably arranged on the sliding part, a magnetic part is arranged on the rotating part, and the magnetic part is configured to attract or release the material box; the first driving assembly is connected with the lead screw to drive the lead screw to rotate; and the second driving assembly is connected with the sliding piece so as to drive the sliding piece to slide.

In some embodiments, the number of the lead screws is two, the two lead screws are distributed at intervals, one end of the fitting piece is connected with one lead screw, and the other end of the fitting piece is connected with the other lead screw

In some specific embodiments, the first drive assembly comprises: the first driving piece is connected to the rack; the first belt wheel is connected with a rotating shaft of the first driving piece; two transmission belt wheels are provided, and each transmission belt wheel is connected with one lead screw; and the first conveyor belt is connected with the first belt wheel and the two transmission belt wheels.

In some more specific embodiments, the first drive assembly further comprises two first tensioning wheels; wherein: the first pulley is located between two of the driving pulleys, each of the first tensioning wheels is located between the first pulley and one of the driving pulleys, the first tensioning wheel is engaged with the first conveyor belt, and the first tensioning wheel is configured to tension the first conveyor belt.

In some embodiments, the second drive assembly comprises: the second driving piece is arranged on the matching piece; the two second belt wheels are arranged at intervals along the length direction of the matching piece, and one of the second belt wheels is connected with a rotating shaft of the second driving piece; and the second conveyor belt is connected with the two second belt wheels, and the material taking assembly is arranged on the second conveyor belt.

In some optional embodiments, the second driving assembly further includes a second tensioning wheel, the second tensioning wheel is configured to tension the second conveyor belt, a rotation shaft of the second tensioning wheel is disposed through the fitting member, and the fitting member is provided with a long hole matched with the rotation shaft of the second tensioning wheel.

In some optional embodiments, the slider comprises: the sliding part is matched with a sliding rail arranged on the matching piece; the supporting part is connected above the sliding part, and a third driving part is arranged on the supporting part and connected with the rotating part to drive the rotating part to rotate; the clamping plate portion is two and is located on two sides of the second conveying belt, the clamping plate portion is configured to clamp the second conveying belt, and one of the clamping plate portion is connected with the supporting portion.

In some specific embodiments, the rotating member comprises: the matching part is provided with two magnetic suction pieces; the rotation portion, the rotation portion is two, two the rotation portion is connected respectively the relative both sides of cooperation portion, wherein the rotation portion with the third driving piece links to each other.

In some embodiments, a plurality of material storage grooves are arranged on the material storage rack, a material box is matched in each material storage groove, the height and the length of the plurality of material storage grooves are the same, and the width of the plurality of material storage grooves is different.

An automatic cooker comprises the feeding mechanism of the automatic cooker.

The utility model discloses an automatic feeding mechanism of fried dish machine adopts a drive assembly drive lead screw to rotate in order to realize the magazine along lead screw axial direction's motion, better guaranteed the stability of magazine in the motion process, and owing to be equipped with magnetism on the rotation piece and inhale the piece, the magazine is inhaled the piece along the in-process magnetism of fitting piece length direction motion and can be comparatively firm and inhale the magazine, further guaranteed the stability of magazine in the motion process like this, reduced the possibility that the magazine takes place to rock, thereby reduced the possibility that the raw materials was poured out. In addition, the screw rod is used as a transmission part of the material box and the magnetic part is used as a retaining part of the material box, so that the transportation reliability of the feeding mechanism is improved, the strength of the feeding mechanism is improved, the damage probability of the feeding mechanism is reduced, and the service life of the feeding mechanism is prolonged.

The utility model discloses automatic cooking machine owing to have the foreside feeding mechanism of automatic cooking machine for automatic cooking machine's reliability is stronger, and life is longer.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of a feeding mechanism of an automatic cooker according to an embodiment of the present invention.

Fig. 2 is a schematic view of a partial structure of a feeding mechanism of an automatic cooker according to an embodiment of the present invention.

Fig. 3 is another partial schematic structural diagram of the feeding mechanism of the automatic cooker according to the embodiment of the present invention.

Reference numerals:

1. a frame;

2. a material storage rack; 21. a material storage groove;

3. a lead screw;

4. a mating member; 41. a slide rail;

5. a material taking assembly; 51. a slider; 511. a sliding part; 512. a support portion; 513. a nip portion; 52. A rotating member; 521. a fitting portion; 522. a rotating part;

6. a first drive assembly; 61. a first driving member; 62. a first pulley; 63. a drive pulley; 64. a first conveyor belt; 65. a first tensioning wheel;

7. a second drive assembly; 71. a second driving member; 72. a second pulley; 73. a second conveyor belt; 74. a second tensioning wheel;

8. a magazine;

9. a protective cover;

10. magnetic attraction pieces.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the technical solution of the present invention will be further explained by combining the drawings and by means of the specific implementation manner.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The following describes a specific structure of a feeding mechanism of an automatic cooker according to an embodiment of the present invention with reference to fig. 1 to 3.

As shown in fig. 1-3, the feeding mechanism of the automatic cooker of the embodiment of the present invention includes a frame 1, a material storage rack 2, a screw rod 3, a matching component 4, a material taking component 5, a first driving component 6 and a second driving component 7, wherein the material storage rack 2 is detachably connected to the frame 1, the material storage rack 2 is configured to store a material box 8, two axial ends of the screw rod 3 are respectively connected to two side plates of the frame 1, the matching component 4 is arranged on the screw rod 3, the matching component 4 can move along the axial direction of the screw rod 3 when the screw rod 3 rotates, the material taking component 5 includes a sliding component 51 and a rotating component 52, the sliding component 51 is slidably arranged on the matching component 4, the rotating component 52 is rotatably arranged on the sliding component 51, a magnetic attraction component 10 is arranged on the rotating component 52, and the magnetic attraction component 10 is configured to. The first driving assembly 6 is connected with the screw rod 3 to drive the screw rod 3 to rotate. The second driving assembly 7 is connected to the slider 51 to drive the slider 51 to slide.

It can be understood that, in the actual use process, the prepared raw materials are put into the material box 8, the second driving assembly 7 drives the sliding part 51 to slide relative to the matching part 4 and move to the position corresponding to the material box 8, and the magnetic part 10 on the rotating part 52 can suck the material box 8, so that the rotating part 52 can stably hold the material box 8 in the moving process of the sliding part 51, the probability of shaking of the material box 8 is reduced, and the possibility of pouring the raw materials is reduced. When the magnetic attraction piece 10 of the rotating piece 52 attracts the material box 8, the first driving assembly 6 drives the screw rod 3 to rotate, so that the matching piece 4 moves along the axial direction of the screw rod 3, and when the material box 8 is separated from the material storage rack 2, the second driving assembly 7 drives the sliding piece 51 to slide relative to the matching piece 4 again, so that the material box 8 moves to the discharging position. After the magazine 8 is moved to the lower position, the rotating member 52 rotates to turn the magazine 8 upside down, thereby completing the pouring.

In addition, because deposit frame 2 detachably connects in frame 1, the user can change the deposit frame 2 of connection in frame 1 according to actual need to the realization adopts the deposit frame that can deposit more magazine 8 when the more dish of culinary art raw materials, and adopts the deposit frame that can deposit less magazine 8 when the less dish of culinary art raw materials. Therefore, the user requirements are better met, and the use satisfaction of the user is improved.

The utility model discloses automatic cooking machine's feeding mechanism, adopt 6 drive lead screw 3 of first drive assembly to rotate in order to realize magazine 8 along the motion of 3 axial direction of lead screw, the stability of magazine 8 in the motion process has better been guaranteed, and owing to be equipped with magnetism on rotating piece 52 and inhale piece 10, magazine 8 inhales a 10 can be comparatively firm with magazine 8 along the in-process magnetism of 4 length direction motions of fitting piece, the stability of magazine 8 in the motion process has further been guaranteed like this, the possibility that magazine 8 takes place to rock has been reduced, thereby the possibility of raw materials pouring has been reduced. In addition, the screw rod 3 is used as a transmission part of the material box 8, and the magnetic suction piece 10 is used as a retaining piece of the material box 8, so that the transportation reliability of the feeding mechanism is improved, the strength of the feeding mechanism is improved, the damage probability of the feeding mechanism is reduced, and the service life of the feeding mechanism is prolonged.

In some embodiments, as shown in fig. 1, there are two lead screws 3, two lead screws 3 are spaced apart, one end of the fitting member 4 is connected to one lead screw 3, and the other end of the fitting member 4 is connected to the other lead screw 3. It will be appreciated that the two ends of the fitting member 4 are each connected to a respective lead screw 3, which ensures stability of the fitting member 4 and thus indirectly of the magazine 8 when the first drive assembly 6 drives the lead screws 3 in rotation. Of course, it should be noted that the number of the lead screws 3 may be selected according to actual needs, and is not limited to two in this embodiment.

In some specific embodiments, as shown in fig. 2, the first driving assembly 6 includes a first driving member 61, a first pulley 62, two driving pulleys 63, and a first belt 64, the first driving member 61 is connected to the frame 1, the first pulley 62 is connected to a rotating shaft of the first driving member 61, the number of the driving pulleys 63 is two, each driving pulley 63 is connected to one lead screw 3, and the first belt 64 is connected to the first pulley 62 and the two driving pulleys 63. It can be understood that, in the actual driving process, the first driving member 61 drives the first pulley 62 to rotate, the first belt 64 is matched with the first pulley 62 and the two driving pulleys 63, the two driving pulleys 63 can rotate while the first pulley 62 rotates, and the two driving pulleys 63 are respectively connected with one lead screw 3, so that the lead screw 3 can be driven to rotate when the two driving pulleys 63 rotate. From this, first drive assembly 6 of this embodiment has adopted a driving piece to realize that two lead screws 3 of simultaneous drive are rotatory, has both guaranteed two lead screws 3 synchronous rotation, thereby avoids fitting piece 4 to take place crooked phenomenon that leads to the card dead, has simplified first drive assembly 6's structure again and has reduced first drive assembly 6's cost. In addition, it should be added that in the present embodiment, the first driving member 61 may be a motor or a driving cylinder, and may be a servo motor or a common three-phase asynchronous motor, and the type of the first driving member 61 may be selected according to actual needs, and the type of the first driving member 61 is not specifically limited herein.

Of course, in other embodiments of the present invention, the first driving assembly 6 may also include two first driving members 61, and each first driving member 61 is connected to one lead screw 3 through a coupling.

In some more specific embodiments, as shown in fig. 2, the first drive assembly 6 further includes two first tensioning wheels 65. The first pulley 62 is located between two driving pulleys 63, each first tensioning wheel 65 is located between the first pulley 62 and one driving pulley 63, the first tensioning wheels 65 cooperate with the first conveyor belt 64, and the first tensioning wheels 65 are configured to tension the first conveyor belt 64. It can be understood that the first tensioning wheel 65 can ensure that the first conveyor belt 64 is always in a tensioning state in the movement process, so that the first conveyor belt 64 is prevented from slipping, the movement stability of the fitting piece 4 is ensured, and the movement stability of the material box 8 is indirectly ensured. In addition, each first tensioning wheel 65 is located between the first belt wheel 62 and one driving belt wheel 63, so that the first driving belt 64 between the first belt wheel 62 and the driving belt wheel 63 is always in a tensioned state, and the driving belt wheel 63 is ensured to be driven by the first driving belt 64 to rotate stably.

It should be added that, in other embodiments of the present invention, the number and distribution of the first tensioning wheels 65 can be selected according to actual needs, and are not limited to the above description.

In some embodiments, as shown in fig. 3, the second driving assembly 7 includes a second driving member 71, two second pulleys 72 and a second conveyor belt 73, the second driving member 71 is disposed on the mating member 4, the number of the second pulleys 72 is two, the two second pulleys 72 are spaced apart along the length direction of the mating member 4, one of the second pulleys 72 is connected to the rotating shaft of the second driving member 71, the second conveyor belt 73 is connected to the two second pulleys 72, and the material taking assembly 5 is disposed on the second conveyor belt 73.

It will be appreciated that during actual movement, the second drive member 71 drives one of the pulleys to rotate, thereby effecting movement of the second conveyor belt 73, and since the take-off assembly 5 is attached to the second conveyor belt 73, as the second conveyor belt 73 moves, the take-off assembly 5 moves with it, thereby effecting sliding movement of the take-off assembly 5 along the length of the mating member 4. Adopt drive belt mechanism to realize getting the motion of material subassembly 5 like this, can guarantee to get the motion stability of material subassembly 5, reduced the cost of second drive assembly 7 again.

In some alternative embodiments, as shown in fig. 3, the second driving assembly 7 further includes a second tension wheel 74, the second tension wheel 74 is configured to tension the second belt 73, a rotating shaft of the second tension wheel 74 is disposed through the fitting member 4, and the fitting member 4 is provided with a long hole matched with the rotating shaft of the second tension wheel 74. It can be understood that the added second tensioning wheel 74 can ensure that the second conveyor belt 73 is always in a tensioned state, so that the stable movement of the material taking assembly 5 is better ensured, and the stability of the material box 8 is ensured. In addition, since the fitting member 4 is provided with a long hole that fits the rotating shaft of the second tensioning wheel 74, the user can adjust the position of the second tensioning wheel 74 according to actual needs, thereby adjusting the tension of the second tensioning wheel 74 on the second conveyor belt 73. Of course, in other embodiments of the present invention, the number and the distribution position of the second tensioning wheels 74 can be selected according to actual needs, and is not limited to one of the embodiments.

In some alternative embodiments, as shown in fig. 3, the sliding member 51 includes a sliding portion 511, a supporting portion 512 and two clamping plate portions 513, the sliding portion 511 is matched with the sliding rail 41 arranged on the matching member 4, the supporting portion 512 is connected above the sliding portion 511, a third driving member is arranged on the supporting portion 512, the third driving member is connected with the rotating member 52 to drive the rotating member 52 to rotate, the clamping plate portions 513 are two, the two clamping plate portions 513 are arranged on two sides of the second conveyor belt 73, and the two clamping plate portions 513 are configured to clamp the second conveyor belt 73, wherein one clamping plate portion 513 is connected with the supporting portion 512.

It can be understood that, due to the fact that the sliding portion 511 of the sliding member 51 is matched with the sliding rail 41 arranged on the matching member 4, on one hand, the sliding member 51 can be ensured to move along the length direction of the matching member 4, and on the other hand, due to the limiting effect of the sliding rail 41 on the sliding portion 511, the sliding member 51 is prevented from being deviated in the sliding process, so that the phenomenon that the material box 8 shakes in the sliding process of the sliding member 51 is ensured. In addition, the two clamping plate portions 513 are adopted to clamp the conveyor belts to complete the connection of the sliding member 51 and the second conveyor belt 73, so that on one hand, the stable connection of the sliding member 51 and the second conveyor belt 73 is ensured, and therefore, the sliding member 51 can stably move along the length direction of the fitting member 4, on the other hand, the punching on the second conveyor belt 73 is avoided, the strength of the second conveyor belt 73 is ensured, and the risk of fatigue fracture of the second conveyor belt 73 is reduced.

In some specific embodiments, as shown in fig. 3, the rotating member 52 includes a matching portion 521 and two rotating portions 522, two magnetic attraction members 10 are disposed on the matching portion 521, two rotating portions 522 are disposed, the two rotating portions 522 are respectively connected to two opposite sides of the matching portion 521, and the rotating portions 522 are connected to the third driving member. Therefore, the third driving part can be better ensured to stably drive the rotating part 522 and the matching part 521 to rotate, so that the raw materials can be stably poured into a pot of the automatic cooker when the material box 8 moves to the material pouring position.

Of course, it should be noted here that in other embodiments of the present invention, the second driving assembly 7 may include a second driving member 71, a screw rod connected to the rotating shaft of the second driving member 71, and a nut engaged on the screw rod, and the sliding member 51 engaged on the nut. This also allows for a relatively simple and stable movement of the take-off assembly 5 along the length of the mating member 4.

In some embodiments, as shown in fig. 1, a protective cover 9 is disposed on the supporting portion 512, and the protective cover 9 covers the third driving member. This can protect the third driving member well, thereby ensuring that the rotation member 52 can rotate stably.

In some embodiments, as shown in fig. 1, a plurality of storage troughs 21 are provided on the storage rack 2, each storage trough 21 is provided with a material box 8, the plurality of storage troughs 21 have the same height and length, and the plurality of storage troughs 21 have different widths. It can be understood that a plurality of storage troughs 21 are arranged on the storage rack 2, so that a plurality of material boxes 8 can be placed on the storage rack 2. In the in-service use process, can place multiple different raw materials on the material storage rack 2 to improve automatic machine's of cooking efficiency. In addition, after a plurality of magazine 8 are put into storage silo 21, can be guaranteed to a plurality of magazine 8 by a plurality of storage silo 21's height and length the same, the terminal surface of a plurality of magazine 8 can flush to conveniently get material subassembly 5 and adsorb magazine 8.

In some embodiments, as shown in fig. 1, the width and length of magazine 8 gradually increase in a direction towards its opening. It can be understood that, because the width and the length of magazine 8 are crescent towards its open-ended direction, make magazine 8 towards the terminal surface of getting material subassembly 5 one side for the inclined plane like this, when first driving piece 61 drive fitting piece 4 along lead screw 3 axial direction upward movement, the terminal surface of getting material subassembly 5 one side of orientation of magazine 8 is littleer and more with the distance of getting the magnetic piece 10 of inhaling on the material subassembly 5, guaranteed like this that magnetic piece 10 can stably attract magazine 8, thereby avoid sucking the phenomenon that magnetic piece 10 can't attract magazine 8 in the use.

Example (b):

a feeding mechanism of an automatic cooker according to an embodiment of the present invention will be described with reference to fig. 1 to 3.

The feeding mechanism of the automatic cooker of this embodiment includes frame 1, material storage frame 2, two lead screws 3, fitting piece 4, get material subassembly 5, first drive assembly 6, second drive assembly 7 and magazine 8, material storage frame 2 connects in frame 1, is equipped with a plurality of material storage troughs 21 on material storage frame 2, all cooperates in every material storage trough 21 has a magazine 8, a plurality of material storage troughs 21's height and length are the same, a plurality of material storage troughs 21's width diverse. The width and length of magazine 8 increase gradually towards its opening. The axial both ends of every lead screw 3 are connected respectively on two curb plates of frame 1 relative setting, and the cooperation of linking to each other of fitting piece 4 is on a lead screw 3 respectively.

The first driving assembly 6 is connected with the lead screw 3 to drive the lead screw 3 to rotate, and the fitting piece 4 can move along the axial direction of the lead screw 3 when the lead screw 3 rotates. The first driving assembly 6 comprises a first driving part 61, a first belt pulley 62, two transmission belt pulleys 63, two first tension pulleys 65 and a first transmission belt 64, the first driving part 61 is connected to the rack 1, the first belt pulley 62 is connected with a rotating shaft of the first driving part 61, each transmission belt pulley 63 is connected with one lead screw 3, the first belt pulley 62 is located between the two transmission belt pulleys 63, each first tension pulley 65 is located between the first belt pulley 62 and one transmission belt pulley 63, and the first transmission belt 64 is connected with the first belt pulley 62, the two transmission belt pulleys 63 and the two first tension pulleys 65.

The second driving assembly 7 comprises a second driving member 71, two second belt pulleys 72 and a second conveyor belt 73, the second driving member 71 is arranged on the fitting member 4, the number of the second belt pulleys 72 is two, the two second belt pulleys 72 are arranged at intervals along the length direction of the fitting member 4, one second belt pulley 72 is connected with a rotating shaft of the second driving member 71, the second conveyor belt 73 is connected with the two second belt pulleys 72, and the material taking assembly 5 is arranged on the second conveyor belt 73. The second tension pulley 74 is disposed to tension the second belt 73, a rotation shaft of the second tension pulley 74 is inserted into the fitting member 4, and the fitting member 4 is provided with a long hole that engages with the rotation shaft of the second tension pulley 74.

The material taking assembly 5 comprises a sliding part 51 and a rotating part 52, the sliding part 51 comprises a sliding part 511, a supporting part 512 and two clamping plate parts 513, the sliding part 511 is matched with the sliding rail 41 arranged on the matching part 4, the supporting part 512 is connected above the sliding part 511, a third driving part is arranged on the supporting part 512, the third driving part is connected with the rotating part 52 to drive the rotating part 52 to rotate, the two clamping plate parts 513 are two, the two clamping plate parts 513 are positioned at two sides of the second conveying belt 73, the two clamping plate parts 513 are configured to clamp the second conveying belt 73, and one clamping plate part 513 is connected with the supporting part 512.

The rotating member 52 includes a matching portion 521 and two rotating portions 522, two magnetic attraction members 10 are disposed on the matching portion 521, the number of the rotating portions 522 is two, the two rotating portions 522 are respectively connected to two opposite sides of the matching portion 521, and the rotating portions 522 are connected to the third driving member.

The working process of the feeding mechanism of the automatic cooker of the embodiment is as follows:

the user puts the prepared raw materials into the plurality of material boxes 8 respectively, the second driving assembly 7 drives the sliding part 51 to slide relative to the matching part 4 and move to the position corresponding to the material boxes 8, and the magnetic attraction part 10 on the rotating part 52 attracts the material boxes 8. Then, the first driving assembly 6 drives the screw 3 to rotate, so that the matching piece 4 moves along the axial direction of the screw 3 to disengage one magazine 8 from the storage rack 2, and then the second driving assembly 7 drives the sliding piece 51 to slide relative to the matching piece 4 again, so that the magazine 8 moves to the blanking position. After the material box 8 moves to the blanking position, the third driving part drives the rotating part 52 to rotate so as to overturn the material box 8, thereby completing the material pouring. Then, the second driving component 7 moves again, so that the sliding component 51 moves to the empty storage slot 21 corresponding to the storage rack 2, the first driving component 6 drives the matching component 4 to move downwards, in the process of moving downwards, after the bottom wall of the material box 8 is stopped against the bottom wall of the storage slot 21, the first driving component 6 continues to drive the matching component 4 to move downwards until the material box 8 adsorbed on the rotating component 52 is separated from the magnetic attracting component, and the material box 8 can be put back, and then the above operations are repeated, so that the raw material in another material box 8 is sent to the pot of the automatic cooking machine.

An automatic cooker comprises the feeding mechanism of the automatic cooker.

The utility model discloses automatic cooking machine owing to have the foreside feeding mechanism of automatic cooking machine for automatic cooking machine's reliability is stronger, and life is longer.

In the description herein, references to the description of "some embodiments," "other embodiments," etc., mean 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 invention. In this specification, 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 for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides an automatic feeding mechanism of machine of cooking which characterized in that includes:

a frame (1);

a magazine (2), the magazine (2) being detachably connected to the frame (1), the magazine (2) being configured to store a magazine (8);

the two axial ends of the screw rod (3) are respectively connected to two side plates of the rack (1), which are arranged oppositely;

the matching piece (4), the matching piece (4) is arranged on the lead screw (3), and the matching piece (4) can move along the axial direction of the lead screw (3) when the lead screw (3) rotates;

the material taking assembly (5) comprises a sliding part (51) and a rotating part (52), the sliding part (51) is arranged on the matching part (4) in a sliding mode, the rotating part (52) is arranged on the sliding part (51) in a rotating mode, a magnetic sucking part (10) is arranged on the rotating part (52), and the magnetic sucking part (10) is configured to suck or release the material box (8);

the first driving assembly (6), the first driving assembly (6) is connected with the lead screw (3) to drive the lead screw (3) to rotate;

a second driving assembly (7), wherein the second driving assembly (7) is connected with the sliding piece (51) to drive the sliding piece (51) to slide.

2. The feeding mechanism of the automatic cooker as claimed in claim 1, wherein there are two lead screws (3), two lead screws (3) are spaced apart, one end of the fitting member (4) is connected to one lead screw (3), and the other end of the fitting member (4) is connected to the other lead screw (3).

3. The feeding mechanism of an automatic cooker as claimed in claim 2, characterized in that said first driving assembly (6) comprises:

a first driving member (61), wherein the first driving member (61) is connected to the frame (1);

the first belt wheel (62), the said first belt wheel (62) couples to spindle of the said first driving part (61);

two transmission belt wheels (63), wherein each transmission belt wheel (63) is connected with one lead screw (3);

and the first conveyor belt (64) is connected with the first belt pulley (62) and the two transmission belt pulleys (63).

4. The feeding mechanism of an automatic cooker as claimed in claim 3, characterized in that said first driving assembly (6) further comprises two first tensioning wheels (65); wherein:

the first pulley (62) is located between two of the driving pulleys (63), each first tensioning wheel (65) is located between the first pulley (62) and one of the driving pulleys (63), the first tensioning wheel (65) is fitted with the first conveyor belt (64), and the first tensioning wheel (65) is configured to tension the first conveyor belt (64).

5. The feeding mechanism of an automatic cooker as claimed in claim 1, characterized in that said second driving assembly (7) comprises:

a second driving member (71), wherein the second driving member (71) is arranged on the mating member (4);

two second belt wheels (72), wherein the two second belt wheels (72) are arranged at intervals along the length direction of the fitting piece (4), and one of the second belt wheels (72) is connected with a rotating shaft of the second driving piece (71);

and the second conveyor belt (73), the second conveyor belt (73) is connected with the two second belt wheels (72), and the material taking assembly (5) is arranged on the second conveyor belt (73).

6. The feeding mechanism of an automatic cooker as claimed in claim 5, wherein said second driving assembly (7) further comprises a second tension wheel (74), said second tension wheel (74) is configured to tension said second belt (73), the rotation shaft of said second tension wheel (74) is installed on said fitting member (4), said fitting member (4) is provided with a long hole engaged with the rotation shaft of said second tension wheel (74).

7. The feeding mechanism of an automatic cooker as claimed in claim 5, characterized in that said slider (51) comprises:

a sliding part (511), wherein the sliding part (511) is matched with a sliding rail (41) arranged on the matching piece (4);

the supporting part (512), the supporting part (512) is connected above the sliding part (511), a third driving part is arranged on the supporting part (512), and the third driving part is connected with the rotating part (52) to drive the rotating part (52) to rotate;

two of the two nip portions (513), two of the nip portions (513) being located on both sides of the second conveyor belt (73), and two of the nip portions (513) being configured to nip the second conveyor belt (73), one of the nip portions (513) being connected to the support portion (512).

8. The feeding mechanism of an automatic cooker as claimed in claim 7, wherein said rotating member (52) comprises:

the matching part (521), two magnetic parts (10) are arranged on the matching part (521);

the number of the rotating parts (522) is two, the two rotating parts (522) are respectively connected to two opposite sides of the matching part (521), and the rotating parts (522) are connected with the third driving piece.

9. The feeding mechanism of the automatic cooker as claimed in claim 1, wherein a plurality of material storage slots (21) are provided on the material storage rack (2), a material box (8) is fitted in each material storage slot (21), the height and length of the plurality of material storage slots (21) are the same, and the width of the plurality of material storage slots (21) is different.

10. An automatic cooker comprising a feed mechanism of the automatic cooker as claimed in any one of claims 1 to 9.

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