CN215383502U - Blanking device and food processing machine - Google Patents

Abstract

The utility model discloses a blanking device and a food processor, wherein the blanking device comprises a storage bin, a metering bin capable of rotating relative to the storage bin, and a driving mechanism for driving the metering bin to rotate, wherein the metering bin is arranged at a feed port of the storage bin, the metering bin is provided with an opening capable of being communicated with the storage bin, the blanking device also comprises a moving part arranged at the feed port, the moving part can move relative to the feed port to adjust the size of the feed port, and the moving part is tightly attached to the outer wall of the metering bin. Food preparation machine includes host computer, stirring cup, stirring sword and motor, and the stirring chamber is injectd to the inside of stirring cup, still includes as above unloader, the opening in measurement storehouse can be linked together with the stirring chamber. Through setting up the moving part at the feed opening for its opening size is adjusted in the activity that the feed opening can rely on the moving part, guarantees that the measurement storehouse when rotating the transportation material, and the moving part can be the activity of relative feed opening, in order to enlarge the size of feed opening, makes the material can rotate the feed opening smoothly and accomplishes the unloading.

Description

Blanking device and food processing machine

Technical Field

The utility model relates to the technical field of kitchen appliances, in particular to a blanking device and a food processor.

Background

In the existing food processing machine, such as a soymilk machine or a wall breaking machine with an automatic blanking function, a blanking device is generally arranged on a machine head, and the blanking device generally comprises a stock bin, a metering bin capable of rotating relative to the stock bin and a driving mechanism for driving the metering bin to rotate. When the blanking device is used, the metering bin can rotate under the driving of the driving mechanism, so that materials in the bin are conveyed downwards to finish blanking. However, in the blanking process, the material card is frequently generated between the metering bin and the stock bin, the movement of the metering bin is blocked, the user can complete blanking only by repeated circulation operation, even the blanking function is lost when the blanking is serious, the blanking can not be completed, all materials need to be poured out, the blanking device is disassembled and recombined, and the use experience of the user is seriously influenced. In order to solve the problems, the existing blanking device is generally provided with silica gel at the feeding port, the extrusion of materials and the silica gel is utilized to deform the silica gel, so that the materials continue to move downwards, the elastic variation of the silica gel is certain, and when the materials with large volume are encountered, the deformation of the silica gel is not enough to pass the materials, so that the materials cannot continue to move downwards and are easy to lose efficacy. Meanwhile, in order to extrude silica gel, the driving mechanism can be realized only by large force, and the driving mechanism can be damaged along with the lengthening of the service time, so that the whole blanking device cannot be normally used, and the user experience is influenced.

Disclosure of Invention

The utility model aims to provide a blanking device and a food processing machine, which are used for solving the problem that the blanking of the existing blanking device is not smooth.

In order to achieve the purpose, the utility model provides a blanking device which comprises a storage bin, a metering bin capable of rotating relative to the storage bin, and a driving mechanism for driving the metering bin to rotate, wherein the metering bin is arranged at a feed port of the storage bin, the metering bin is provided with an opening capable of being communicated with the storage bin, the blanking device further comprises a moving part arranged at the feed port, the moving part can move relative to the feed port to adjust the size of the feed port, and the moving part is tightly attached to the outer wall of the metering bin.

The utility model provides a discharging device, wherein a movable part is arranged at a feed port, so that the feed port can adjust the size of an opening of the feed port by virtue of the movement of the movable part, the movable part can be extruded by the material at the opening of a metering bin under the driving of the metering bin when the metering bin rotates to transport the material, the movable part can move relative to the feed port to enlarge the size of the feed port, the material can smoothly rotate through the feed port and continuously rotate downwards to complete discharging, the situation that the metering bin blocks the movement of the metering bin because the material is clamped between the metering bin and the feed port in the transportation process is avoided, and compared with the traditional mode that silica gel is arranged at the feed port, the discharging device is more reliable and effective, and the user experience is improved. And compare in traditional silica gel, the home range of moving part is bigger for bigger material can pass through the feed inlet downstream smoothly, has solved the limited problem of silica gel deformation volume. Meanwhile, the movable part is tightly attached to the outer wall of the metering bin, so that the materials located in the bin cannot fall to the lower side of the metering bin through a gap between the movable part and the metering bin, and the inaccuracy of the blanking amount is avoided. In addition, the capacity in measurement storehouse is fixed, consequently, the material weight of each time measurement all is certain, and the user can select how much and the accuracy ratio of unloading according to the demand of oneself, has further promoted user experience.

In the preferred realization mode of the blanking device, the movable part is connected with an elastic part abutted against the stock bin, and the elastic force of the elastic part enables the outer wall of the metering bin to be tightly attached to the movable part and can slide relative to the movable part.

Through the elastic component who sets up connection and feed bin butt on the moving part for the outer wall in measurement storehouse hugs closely the moving part and can slide by the relative moving part, guarantees that the moving part makes and to retreat and dodge receiving the material extrusion, so that the material changes the feed inlet smoothly, and the elastic component combines together with the moving part moreover, thereby has guaranteed the activity interval of moving part, makes moving part reciprocating motion more reliable, difficult inefficacy. Meanwhile, the movable part can be reset to be tightly attached to the outer wall of the metering bin under the elastic force of the elastic part, and materials located in the bin are prevented from falling below the metering bin through a gap between the movable part and the metering bin.

In a preferred implementation manner of the blanking device, the blanking device further comprises a control mechanism for driving the movable member to move, a pressure sensing device electrically connected with the control mechanism is arranged at one end, facing the metering bin, of the movable member, the control mechanism drives the movable member to give way when the pressure sensing device is triggered, and drives the movable member to reset when the pressure sensing device is not triggered.

Through setting up pressure sensing device at the moving part towards the one end in measurement storehouse for the moving part is when receiving pressure material extrusion moving part promptly, and pressure sensing device can detect the moving part and receive the extrusion, then passes to control mechanism with the signal of telecommunication, and control mechanism drive moving part gives back, so that the material can be smoothly rotated the feed opening and continue to rotate downwards and realize the unloading. Meanwhile, when the moving part is not under pressure, the control mechanism can also drive the moving part to reset, so that the moving part is tightly attached to the outer wall of the metering bin, and a large gap is prevented from being formed between the moving part and the metering bin.

In the preferred realization mode of unloader, the feed bin is fixed to be equipped with the first magnet side by side in the moving part rear, and the rear end of moving part sets up the second magnet, and the second magnet is mutually exclusive with first magnet so that the front end of moving part is hugged closely with the outer wall in measurement storehouse.

Through setting up magnet at feed bin and moving part for the moving part alright realize hugging closely with the measurement storehouse outer wall with the help of the mutual repulsion of two magnets, simplified the structure of moving part, thereby help simplifying whole unloader's spare part, improve unloader's assembly efficiency. Meanwhile, the weight of the blanking device can be reduced, a user can easily take the blanking device, and user experience is improved.

In unloader's preferred implementation, the measurement storehouse is hollow circular cylinder, and the opening is located the lateral wall in measurement storehouse, and the moving part is including the arc binding face that can laminate with measurement storehouse lateral wall and towards the backstop face of feed inlet.

Through setting up the moving part to including arc binding face that can laminate with the measurement storehouse lateral wall and towards the backstop face of feed opening for the opening is rotating behind the feed opening, and arc binding face can continue to extrude the material of living opening part, avoids the material to drop to unloader's other positions in advance.

In the preferred realization of unloader, the feed bin is equipped with the spout, and the moving part slidable ground sets up in the spout, and the spout is equipped with the position muscle that ends that prevents the moving part and break away from.

Through set up the spout on the feed bin, guarantee that the moving part can make a round trip to slide in the spout, the spout has certain guide limit effect to the moving part moreover, has improved the gliding stability of moving part. Meanwhile, a stop rib for preventing the moving part from being separated is arranged in the sliding groove, so that the moving range of the moving part in the sliding groove is limited, and the condition that the moving part is separated from the sliding groove due to the fact that the opening is no longer limited to the moving part after the outer wall of the metering bin slides over the moving part is avoided.

In a preferred implementation manner of the blanking device, the driving mechanism comprises a rack arranged on the storage bin and a gear arranged on the metering bin, and the rack is matched with the gear to drive the metering bin to rotate.

Through setting up actuating mechanism into rack and gear complex form for the user can drive the rack according to the demand of oneself and drive the measurement storehouse and carry out the unloading, has improved user experience. Meanwhile, the structure of the gear and the rack is simple, the processing and the assembly are easy, and the production cost is reduced. And the gear meshing transmission efficiency is high, and the user is prevented from doing useless work.

In the preferred implementation mode of the blanking device, the rack sleeve is provided with a spring, one end of the spring is abutted against the rack, and the other end of the spring is abutted against the inner wall of the storage bin so as to be used for resetting the rack.

The spring is arranged on the rack in a sleeved mode, so that after the user presses the rack, the rack can reset by means of the elastic force of the spring, the user does not need to reset manually, and user experience is further improved.

This application still includes a food preparation machine, including host computer, stirring cup, stirring sword and motor, the stirring chamber is injectd to the inside of stirring cup, still includes as above unloader, the opening in measurement storehouse can be linked together with the stirring chamber.

By using the blanking device on the food processor, when a user uses the food processor to blank, the metering bin is rotated, so that the opening of the metering bin is communicated with the stirring cavity to realize blanking, and convenience is brought to the user for blanking. Simultaneously, the capacity of the metering bin is fixed, so that the weight of the material metered at each time is fixed, the user can select the quantity of the discharged materials according to the own requirement, the accuracy is higher, and the user experience is improved.

In a preferred implementation manner of the food processor, the blanking device further comprises a sliding plate arranged below the metering bin, the sliding plate is provided with a through hole, and the sliding plate can reciprocate along with the rotation of the metering bin so as to align or misalign the through hole with the feed port.

Through set up the sliding plate in the below of measurement storehouse, and have the through-hole on the sliding plate for unloader is when not carrying out the unloading, and unloader and stirring chamber are separated each other, avoids food preparation machine at the during operation, and the vapor that produces in the stirring chamber enters into unloader, leads to the material condition of weing among the unloader. Meanwhile, the sliding plate can reciprocate along with the rotation of the metering bin, so that the sliding plate can move without an additional driving device, the structural components of the blanking device are further simplified, and the production cost is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural view of a metering hopper in an initial position according to one embodiment of the present invention;

FIG. 2 is a schematic structural view of a metering bin in a blanking position according to one embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a blanking device according to an embodiment of the present invention;

FIG. 4 is an exploded view of a blanking device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a food processor according to an embodiment of the present invention.

List of reference numerals: 1-a storage bin, 11-a feeding port, 12-a chute, 13-a baffle, 14-a blanking channel and 15-a connecting piece; 2-a metering bin and 21-an opening; 3-a movable piece, 31-a stop surface and 32-an arc-shaped binding surface; 4-driving mechanism, 41-rack, 42-gear; 5-an elastic member; 6-a spring; 7-sliding plate, 71-through hole; 8-a button; 9-a host; 10-stirring cup, 101-stirring knife and 102-motor.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings.

It should be noted that in the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.

As shown in fig. 1, an unloader, including feed bin 1, can be relative feed bin 1 pivoted measurement storehouse 2 and drive measurement storehouse 2 pivoted actuating mechanism 4, measurement storehouse 2 is installed at the feed inlet 11 of feed bin 1, measurement storehouse 2 is equipped with the opening 21 that can communicate with feed bin 1, unloader is still including setting up moving part 3 at feed inlet 11, moving part 3 can be relative feed inlet 11 activity in order to adjust the 11 sizes of feed inlet, and moving part 3 is hugged closely with the outer wall of measurement storehouse 2.

The utility model provides a blanking device, wherein a movable part 3 is arranged at a feed port 11, so that the feed port 11 can adjust the size of an opening 21 of the movable part 3 by virtue of the activity of the movable part 3, and the movable part 3 can be extruded by the material at the opening 21 of a metering bin 2 under the driving of the metering bin 2 when the metering bin 2 rotates to transport the material, so that the movable part 3 can move relative to the feed port 11 to enlarge the size of the feed port 11, so that the material can smoothly rotate through the feed port 11 and continue to rotate downwards to complete blanking, the situation that the metering bin 2 blocks the movement because the material is clamped between the metering bin 2 and the feed port 11 in the transportation process is avoided, and compared with the traditional mode that silica gel is arranged at the feed port 11, the blanking device is more reliable and effective, and improves the user experience. And compare in traditional silica gel, moving part 3's home range is bigger for bigger material can be smoothly through feedwell 11 downstream, has solved the limited problem of silica gel deformation volume. Meanwhile, the movable part 3 is tightly attached to the outer wall of the metering bin 2, so that the materials located in the bin 1 cannot fall below the metering bin 2 through a gap between the movable part 3 and the metering bin 2, and the inaccuracy of the blanking amount is avoided. In addition, the capacity of the metering bin 2 is fixed, so that the weight of the material metered at each time is fixed, the user can select the quantity of the discharged material according to the requirement of the user, the accuracy is higher, and the user experience is further improved.

Preferably, as shown in fig. 1, the bottom surface of the storage bin 1 is a cambered surface with a low middle part and a high periphery, and the material feeding port 11 is located at the lowest position of the bottom surface, i.e. from the outer side to the center, the closer to the center, the lower the position of the position, so that the material in the storage bin 1 can be gathered to the center, and the material entering the metering bin 2 each time is ensured to fill the metering bin 2, thereby facilitating the gathering and entering of the material into the metering bin 2.

It should be noted that, the present application does not specifically limit the moving manner of the movable member 3, and it may be any one of the following embodiments:

example 1: as shown in fig. 1, in this embodiment, the movable member 3 is connected to an elastic member 5 abutting against the storage bin 1, and the elastic force of the elastic member 5 causes the outer wall of the metering storage bin 2 to be tightly attached to the movable member 3 and to be able to slide relative to the movable member 3.

Through the elastic component 5 of setting up connection and 1 butt of feed bin on moving part 3 for the outer wall in measurement storehouse 2 hugs closely moving part 3 and can slide by moving part 3 relatively, guarantees that moving part 3 receives the material extrusion messenger and can retreat to dodge, so that the material rotates feed port 11 smoothly, and elastic component 5 and moving part 3 combine together moreover, thereby has guaranteed the activity interval of moving part 3, makes 3 reciprocating motion of moving part more reliable, difficult inefficacy. Meanwhile, the movable part 3 can be reset to be tightly attached to the outer wall of the metering bin 2 under the elastic force of the elastic part 5, and the material located in the bin 1 is prevented from falling below the metering bin 2 through a gap between the movable part 3 and the metering bin 2. As a preferred aspect of this embodiment, as shown in fig. 1, a stopper 13 abutting against the elastic member 5 is provided behind the movable member 3, so that the elastic member 5 can be easily detached.

Specifically, as shown in fig. 1, during the discharging process, the opening 21 of the metering bin 2 is first upward, and the material enters the metering bin 2 under the self-gravity. The user anticlockwise rotates measurement storehouse 2, measurement storehouse 2 is at the rotation in-process, the material of 2 tops in measurement storehouse is constantly extruded to opening 21's tip, push back the material in top feed bin 1, when opening 21's tip rotated to being close to moving part 3, opening 21's tip continues to extrude the material, material extrusion moving part 3, moving part 3 will power transmission gives elastic component 5, elastic component 5 takes place to warp and makes moving part 3 remove backward, the material can continue to rotate, the material card can not take place the condition at feed inlet 11. When the opening 21 of the metering bin 2 completely passes over the material supply port 11, the outer wall of the metering bin 2 and the movable member 3 are continuously attached to close the material supply port 11, and the material in the material bin 1 cannot continuously enter the metering bin 2 or cannot move downwards through the gap between the metering bin 2 and the movable member 3. As shown in fig. 2, the measuring bin 2 is rotated continuously, when the edge of the opening 21 of the measuring bin 2 exceeds the horizontal position of the central line, the material in the measuring bin 2 falls downwards, and after the blanking is finished, the user can reset the measuring bin 2.

Example 2: in this embodiment, the blanking device further includes a control mechanism for driving the movable member 3 to move, a pressure sensing device electrically connected to the control mechanism is disposed at one end of the movable member 3 facing the metering bin 2, the control mechanism drives the movable member 3 to give way when the pressure sensing device is triggered, and drives the movable member 3 to reset when the pressure sensing device is not triggered. Through setting up pressure sensing device at 3 one ends towards measurement storehouse 2 of moving part for moving part 3 is when receiving pressure material extrusion moving part 3 promptly, and pressure sensing device can detect moving part 3 and receive the extrusion, then passes to control mechanism with the signal of telecommunication, and control mechanism drive moving part 3 gives back and lets, so that the material can be smoothly rotated the feed opening 11 and continue to rotate downwards and realize the unloading. Meanwhile, when the moving part 3 is not under pressure, the control mechanism can also drive the moving part 3 to reset, so that the moving part 3 is tightly attached to the outer wall of the metering bin 2, and a large gap is prevented from being formed between the moving part 3 and the metering bin 2.

Example 3: in this embodiment, the stock bin 1 is fixedly provided with a first magnet arranged in parallel behind the movable member 3, the rear end of the movable member 3 is provided with a second magnet, and the second magnet and the first magnet mutually repel each other to enable the front end of the movable member 3 to be tightly attached to the outer wall of the metering bin 2. Through setting up magnet at feed bin 1 and moving part 3 for moving part 3 just can realize hugging closely with 2 outer walls in measurement storehouse with the help of the mutual repulsion of two magnets, has simplified moving part 3's structure, thereby helps simplifying whole unloader's spare part, improves unloader's assembly efficiency. Meanwhile, the weight of the blanking device can be reduced, a user can easily take the blanking device, and user experience is improved.

As a preferred embodiment of the present application, as shown in fig. 3, the metering bin 2 is hollow cylindrical, the opening 21 is located on a side wall of the metering bin 2, and the movable member 3 includes an arc-shaped abutting surface capable of abutting against the side wall of the metering bin 2 and a stop surface facing the supply opening 11.

Through setting up moving part 3 to including arc binding face 32 that can laminate with 2 lateral walls of measurement storehouse and towards the backstop face 31 of feed opening 11 for opening 21 is rotating behind feed opening 11, and arc binding face 32 can continue to extrude the material of living opening 21 department, avoids the material to drop to unloader's other positions in advance.

As a preferred embodiment of the present application, as shown in fig. 4, the storage bin 1 is provided with a sliding groove 12, the movable member 3 is slidably disposed in the sliding groove 12, and the sliding groove 12 is provided with a stop rib for preventing the movable member 3 from being detached. Through set up spout 12 on feed bin 1, guarantee that moving part 3 can make a round trip to slide in spout 12, spout 12 has certain guide limiting displacement to moving part 3 moreover, has improved the gliding stability of moving part 3. Meanwhile, a stop rib for preventing the moving part 3 from being separated is arranged in the sliding groove 12, so that the moving range of the moving part 3 in the sliding groove 12 is limited, and the condition that the moving part 3 is separated from the sliding groove 12 because the opening 21 no longer limits the moving part 3 after the outer wall of the metering bin 2 slides over the moving part 3 is avoided. As a preferred choice under this embodiment, when the movable member 3 supports against the spacing rib, there is certain clearance between movable member 3 and the measurement bin 2 for measurement bin 2 can be more smooth and easy when rotating, prevents that the excessive extrusion of movable member 3 and measurement bin 2 from leading to the frictional force between measurement bin 2 and the movable member 3 great, so that the condition that measurement bin 2 rotates unsmoothly, need to explain, though there is the clearance between movable member 3 and the measurement bin 2, but the material can not remove to other positions through this clearance.

Of course, the stop rib is not limited to be disposed in the sliding groove 12, but may be disposed on the sidewall of the storage bin 1 or the outer wall of the bottom, and a stopping portion capable of being engaged with the stop rib is disposed on the outer wall of the moving member 3, so that the moving member 3 is prevented from being disengaged from the sliding groove 12 by the engagement of the stop rib and the stopping portion.

It should be noted that the structure of the driving mechanism 4 is not specifically limited in the present application, and may be any one of the following embodiments:

example 1: as shown in fig. 1, in this embodiment, the driving mechanism 4 includes a rack 41 disposed on the storage bin 1 and a gear 42 disposed on the metering bin 2, and the rack 41 cooperates with the gear 42 to drive the metering bin 2 to rotate. Through setting up actuating mechanism 4 into rack 41 and gear 42 complex form for the user can drive rack 41 and drive measuring bin 2 and carry out the unloading according to the demand of oneself, has improved user experience. Meanwhile, the gear 42 and the rack 41 have simple structures, are easy to process and assemble, and reduce the production cost. And the gear 42 has high meshing transmission efficiency, so that the user is prevented from doing useless work. Preferably, as shown in fig. 1, a button 8 is further disposed on the top of the rack 41, and the button 8 may be made of silica gel or the like, so that a user can have a better touch feeling when pressing the rack 41, and user experience is improved.

Further, as shown in fig. 1, the rack 41 is sleeved with a spring 6, one end of the spring 6 abuts against the rack 41, and the other end of the spring 6 abuts against the inner wall of the storage bin 1, so as to be used for resetting the rack 41. Through set up spring 6 on rack 41 for the user is after pressing rack 41 according to the decurrent arrow direction of drawing, and rack 41 can reset with the help of spring 6's elasticity, and the user need not manually to reset, has further promoted user experience.

Example 2: in this embodiment, the driving mechanism includes a motor disposed in the storage bin 1 and a control panel electrically connected to the motor, and the motor drives the metering bin 2 to rotate through a gear or a chain. Specifically, when the user used unloader, at first selected the weight of unloading through control panel, then control panel control motor rotated, and the motor drives measurement storehouse 2 and rotates, and control panel can come the reciprocal pivoted number of times of control motor according to the weight of selecting to realize more accurate unloading, the user need not manually to carry out the unloading, has further promoted user experience.

As shown in fig. 5, the present application also includes a food processor, which includes a main machine 9, a stirring cup 10, a stirring blade 101 and a motor 102, wherein the stirring cup 10 defines a stirring cavity inside, and further includes a blanking device as described above, and the opening 21 of the measuring bin 2 can be communicated with the stirring cavity.

By using the blanking device on the food processor, when a user uses the food processor to blank, the metering bin 2 is rotated, so that the opening 21 of the metering bin 2 is communicated with the stirring cavity, thereby realizing blanking and facilitating blanking of the user. Simultaneously, the capacity of the metering bin 2 is fixed, so that the weight of the material metered at each time is fixed, the user can select the quantity of the discharged material according to the own requirement, the accuracy is higher, and the user experience is improved. Preferably, as shown in fig. 1 and 4, the blanking device further includes a blanking channel 14 corresponding to the axial position of the metering bin 2, the inner diameter of the blanking channel 14 is in a necking shape from top to bottom, and the blanking channel 14 is detachably connected with the storage bin 1 through a connecting piece 15. Through setting up unloading passageway 14, guarantee that the material in the measurement storehouse 2 can be through unloading passageway 14 downstream to stirring chamber, avoid the material to enter into unloader's other positions.

Further, as shown in fig. 1, the blanking device further includes a sliding plate 7 disposed below the metering bin 2, the sliding plate 7 is provided with a through hole 71, and the sliding plate 7 can reciprocate with the rotation of the metering bin 2 to align or misalign the through hole 71 with the feed port 11. The sliding plate 7 is arranged below the metering bin 2, and the sliding plate 7 is provided with the through hole 71, so that when the blanking device does not carry out blanking, the blanking device and the stirring cavity are mutually separated, and the situation that when a food processing machine works, water vapor generated in the stirring cavity enters the blanking device to cause the material in the blanking device to be damp is avoided. While the slide plate 7 is reciprocated with the rotation of the measuring chamber 2, for example, in fig. 1, the slide plate 7 is slid in the direction indicated by the arrow to the right, so that the through hole 71 is aligned with the supply port 11, and the discharge is performed. Therefore, the movement of the sliding plate 7 can be realized without arranging an additional driving device, the structural components of the blanking device are further simplified, and the production cost is reduced.

Preferably, when the metering bin 2 drives the sliding plate 7 to reciprocate, the through hole 71 on the sliding plate 7 is aligned with the feed opening 11 when the opening 21 of the metering bin 2 faces downward, and the through hole 71 on the sliding plate 7 is misaligned with the feed opening 11 when the opening 21 of the metering bin 2 is moving away from or close to the feed opening 11. The materials falling in the metering bin 2 can be discharged out of the blanking device in time and cannot be accumulated in the blanking device.

It should be noted that, in addition to the above arrangement, a motor may be additionally disposed to drive the sliding plate 7 to move, which is not described herein.

The technical solutions protected by the present invention are not limited to the above embodiments, and it should be noted that the combination of the technical solution of any one embodiment and the technical solution of one or more other embodiments is within the protection scope of the present invention. Although the utility model has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the utility model. Accordingly, such modifications and improvements are intended to be within the scope of the utility model as claimed.

Claims (10)

1. The utility model provides an unloader, includes the feed bin, can be relative feed bin pivoted measurement storehouse and drive measurement storehouse pivoted actuating mechanism, the measurement storehouse is installed the feed opening of feed bin, the measurement storehouse be equipped with can with the opening of feed bin intercommunication, a serial communication port, unloader is still including setting up the moving part of feed opening, the moving part can be relative the feed opening activity is in order to adjust the feed opening size, just the moving part is hugged closely with the outer wall in measurement storehouse.

2. The blanking device according to claim 1, wherein the movable member is connected with an elastic member abutting against the storage bin, and the elastic force of the elastic member enables the outer wall of the metering bin to be tightly attached to the movable member and to slide relative to the movable member.

3. The blanking device of claim 1, further comprising a control mechanism for driving the movable member to move, wherein the movable member is provided with a pressure sensing device at an end facing the metering bin, the pressure sensing device being electrically connected to the control mechanism, the control mechanism driving the movable member to retreat when the pressure sensing device is triggered and driving the movable member to return when the pressure sensing device is not triggered.

4. The blanking device according to claim 1, wherein the bin is fixedly provided with a first magnet arranged in parallel behind the movable member, the rear end of the movable member is provided with a second magnet, and the second magnet and the first magnet mutually repel each other to enable the front end of the movable member to be tightly attached to the outer wall of the metering bin.

5. The blanking device according to claim 1, wherein the metering bin is hollow and cylindrical, the opening is located in a side wall of the metering bin, and the movable member includes an arc abutting surface capable of abutting against the side wall of the metering bin and a stop surface facing the supply opening.

6. The blanking device of claim 1, wherein the bin is provided with a sliding groove, the movable member is slidably disposed in the sliding groove, and the sliding groove is provided with a stop rib for preventing the movable member from disengaging.

7. The blanking device of claim 1, wherein the driving mechanism comprises a rack disposed on the storage bin and a gear disposed on the metering bin, and the rack and the gear cooperate to drive the metering bin to rotate.

8. The blanking device according to claim 7, wherein the rack sleeve is provided with a spring, one end of the spring is abutted with the rack, and the other end of the spring is abutted with the inner wall of the storage bin, so that the rack is reset.

9. A food processor comprising a main body, a stirring cup, a stirring blade and a motor, the stirring cup defining a stirring chamber inside, characterized in that the food processor further comprises a blanking device according to any one of claims 1 to 8, the opening of the metering bin being capable of communicating with the stirring chamber.

10. The food processor of claim 9, wherein the discharge device further comprises a sliding plate disposed below the metering bin, wherein the sliding plate is provided with a through hole, and the sliding plate can reciprocate with the rotation of the metering bin to align or misalign the through hole with the feed port.

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