CN214180180U - Vegetable cutting and cooking machine - Google Patents

Abstract

The utility model provides a vegetable cutting and arranging machine, which comprises a host and an arranging component, wherein the arranging component comprises an upper shell, a lower shell, a cutter head and a material pushing plate, the upper shell and the lower shell are matched to form a containing cavity, the cutter head is rotatablely arranged in the containing cavity and comprises a disk body and a rotating shaft, the rotating shaft is in transmission connection with a host driving device, and the disk body is provided with a cutting edge and a blanking hole; the material pushing plate is positioned below the tray body and is rotatably arranged in the containing cavity so as to push at least part of the food materials falling through the blanking hole to the discharge hole. The utility model discloses vegetable-chopper, the scraping wings is rotatable to push the discharge gate in order to be fallen into the edible material at least part in blade disc below space by blade disc blanking hole to make edible material can in time break away from and hold the chamber, avoid piling up in holding the intracavity, then hold the chamber volume and need not too greatly to hold edible material, and then do benefit to the whole height and the focus position that reduce the cooking subassembly, make the machine operation more stable, reduce the potential safety hazard.

Description

Vegetable cutting and cooking machine

Technical Field

The utility model relates to a kitchen appliances technical field, concretely relates to cooking machine's institutional advancement of cutting dish.

Background

The development of science and technology, various interesting and practical small kitchen appliances are full of the kitchen, and besides an oven and a microwave oven, a vegetable cutting and cooking machine, a dough mixer, a wall breaking cup, a noodle maker and the like are also provided.

Vegetable-chopper usually includes base portion and cooking cup, the cooking cup includes bowl cover and cup, be provided with the blade disc in the cup, be equipped with the blade on the blade disc, be equipped with drive arrangement in the base portion, the cooking cup is installed on the base, drive arrangement drive blade disc rotates and then drives the blade rotation on it, be equipped with the feed cylinder that throws that is located bowl cover one side on the bowl cover, the user will eat the material and throw to the cup in and press edible material from throwing the feed cylinder, whenever the blade disc drives the blade and rotates and carry out the rotary cutting to the edible material of throwing to the cup in to throw feed cylinder discharge gate department promptly, eat the material and process the face under the user's pressing action and paste nearly blade disc during the cutting, so that the blade carries out the rotary cutting. Different blades can cut different shapes of food material, such as slices or shreds.

Among the prior art, blade disc and the direct chamber that holds that is used for holding edible material that forms of cup, bowl cover detachable install on the cup, and the edible material that the blade disc downcuts directly falls in the cup of blade disc below, need separate bowl cover and blade disc and cup when eating the material full of the cup, will eat the material and pour out.

Because the cup will reserve out edible material storage space, then make cooking cup height higher, lead to the whole height of vegetable cutting cooking machine higher, the focus is higher, in addition when carrying out cooking work the blade disc will rotate, then lead to the machine operation unstable, have the potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The utility model provides a vegetable cutting and arranging machine can reduce the complete machine height, improves machine operational reliability and security.

In order to achieve the technical purpose, the utility model adopts the following technical scheme to realize: a vegetable cutting and cooking machine comprises a host and a cooking assembly arranged on the host, wherein a driving device is arranged on the host; the cooking assembly comprises an upper shell, a lower shell, a cutter head and a material pushing plate, wherein the upper shell and the lower shell are matched to form a containing cavity, a feeding hole communicated with the containing cavity is formed in the upper shell, and a discharging hole communicated with the containing cavity and positioned below the cutter head is formed in the lower shell; the cutter head is rotatably arranged in the containing cavity and comprises a disk body and a rotating shaft, the rotating shaft is in transmission connection with the driving device, and the disk body is provided with a cutting edge and a blanking hole positioned below the cutting edge; the material pushing plate is positioned below the tray body and is rotatably arranged in the containing cavity so as to push at least part of the food materials falling through the blanking hole to the discharge hole.

The material pushing plate and the cutter head rotate in the same direction and synchronously, and the rotation axis of the material pushing plate coincides with the axis of the rotating shaft.

The blanking hole is followed the radial extension of disk body, the scraping wings is rectangular form, and its length direction's first end is close to the pivot, the second end is kept away from the pivot, just first end is in orthographic projection on the disk body arrives the radial sharp distance of blanking hole place disk body is less than the second end is in orthographic projection on the disk body arrives the radial sharp distance of blanking hole place disk body.

The included angle between the blanking holes and the orthographic projections of the material pushing plates on the same horizontal plane is more than 20 degrees.

The material pushing plate is arc-shaped and long-strip-shaped, and the arc-shaped protruding direction of the material pushing plate is along the rotating direction of the cutter head.

The cooking assembly further comprises a material carrying disc located below the material pushing plate, the material carrying disc is coaxial with the cutter head, and the material carrying disc and the cutter head rotate in the same direction and synchronously.

The upper surface of the material loading plate is provided with a plurality of convex ribs which extend along the radial direction and protrude upwards, and the convex ribs are distributed along the circumferential direction.

The material pushing plate and the cutter head and/or the material carrying disc are of an integrated structure.

The discharge gate is located the circumference edge of year charging tray, and for relative casing downwardly extending's tube-shape down, the top of discharge gate has and does benefit to eat the material entering the direction inclined plane of discharge gate.

The feed inlet is a cylinder, the top end of the feed inlet is positioned above the upper shell, and the bottom end of the feed inlet extends into the cavity and is positioned above the cutter head.

Compared with the prior art, the utility model has the advantages of it is following and positive effect:

the utility model discloses vegetable-chopper, be formed with the feed inlet on its cooking subassembly upper housing, be formed with the discharge gate on the casing down, feed inlet and discharge gate all with hold the chamber intercommunication, and the blade disc below that holds the intracavity is equipped with the scraping wings, the scraping wings is rotatable to push the discharge gate with the edible material at least part that falls into blade disc below space by blade disc blanking hole, thereby make edible material can in time break away from and hold the chamber, avoid piling up in holding the chamber, then hold the chamber volume and need not too greatly to hold edible material, and then do benefit to whole height and the focus position that reduces cooking subassembly, make the machine operation more stable, reduce the potential safety hazard.

Drawings

Fig. 1 is a perspective view of a vegetable cutting and cooking machine according to an embodiment of the present invention;

fig. 2 is a perspective view of a cooking assembly of the vegetable cutting and cooking machine according to the embodiment of the present invention;

fig. 3 is a sectional view of the cooking assembly of the vegetable cutting and cooking machine according to the embodiment of the present invention;

fig. 4 is an assembly view of the cutter head, the material pushing plate and the material carrying plate of the food processing assembly of the vegetable cutting and arranging machine of the embodiment of the invention;

fig. 5 is a side view of fig. 4.

Description of the drawings: 100. a host; 110. a left side supporting seat; 120. a right side supporting seat; 200. a cooking component; 210. an upper housing; 220. a lower housing; 230. a cutter head; 231. a tray body; 232. a rotating shaft; 233. a cutting edge; 234. a blanking hole; 240. a material pushing plate; 241. a first end; 242. a second end; 250. a cavity; 260. a feed inlet; 270. a discharge port; 280. a material carrying disc; 281. a rib is protruded; 300. a storage container.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 to 3, the vegetable cutting machine of the present embodiment includes a main body 100 and a food processing assembly 200 installed on the main body 100, wherein the main body 100 is provided with a driving device (located inside the main body casing, not shown); the food processing assembly 200 comprises an upper shell 210, a lower shell 220, a cutter head 230 and a material pushing plate 240, wherein the upper shell 210 and the lower shell 220 can be buckled or matched in other modes to form a containing cavity 250, a feed inlet 260 communicated with the containing cavity is formed in the upper shell 210, and a discharge outlet 270 communicated with the containing cavity 250 and positioned below the cutter head 230 is formed in the lower shell 220; the cutter head 230 is rotatably arranged in the cavity 250 and comprises a disk body 231 and a rotating shaft 232, the rotating shaft 232 is in transmission connection with a driving device of the main machine 100, and the disk body 231 is provided with a cutting edge 233 and a blanking hole 234 positioned below the cutting edge 233; the material pushing plate 240 is located below the tray 231 and rotatably disposed in the cavity 250, and the rotation of the material pushing plate 240 pushes at least a portion of the food material falling through the material falling hole 234 (specifically, falling into the space below the tray 231) toward the material outlet 270, and the food material is discharged from the material outlet 270 and separated from the cavity 250.

A storage container 300 may be disposed below the discharge port 270 to receive the cut food material discharged from the discharge port 270, the storage container 300 may be disposed separately, or an area for positioning the storage container 300 may be disposed on the main body 100, and the storage container 300 may be disposed on the area. As shown in fig. 1, the width is great about host computer 100 in this embodiment, left side supporting seat 110 is used for placing storage container 300, right side supporting seat 120 is used for placing cooking assembly 200, right side supporting seat 120 is a little higher than left side supporting seat 110, so that cooking assembly 200, after storage container 300 all placed in place, cooking assembly 200's discharge gate 270 can be located storage container 300's top, in order to input the edible material that will cut into storage container 300, discharge gate 270 and storage container 300 interval certain distance simultaneously, also can make things convenient for getting of storage container 300 and put. The driving device of the main machine 100 is disposed in the right supporting seat 120, a power output port is disposed at the top end of the right supporting seat 120, and a power output end of the driving device extends into the accommodating cavity of the food processing assembly 200 through the power output port and is in transmission connection with the rotating shaft 232 of the cutter head 230, or the rotating shaft 232 of the cutter head 230 extends into the right supporting seat 120 through the power output port and is in transmission connection with the driving device.

In this embodiment, the material pushing plate 240 and the cutter head 230 rotate in the same direction and synchronously, and the rotation axis of the material pushing plate 240 coincides with the axis of the rotating shaft 232.

Further, referring to fig. 4 and 5, the blanking hole 234 extends in the radial direction of the disc 231, the material pushing plate 240 is elongated, a first end 241 of the length direction thereof is close to the rotating shaft 232, a second end 242 thereof is far from the rotating shaft 232, and an orthographic projection of the material pushing plate 240 on the disc is indicated by a dashed line frame a on the disc 231 in fig. 4. In this embodiment, the distance L1 from the orthographic projection of the first end 241 on the disc 231 (i.e., the inner end a1 of the orthographic projection of the pusher plate 240 on the disc shown by the dashed line box) to the radial straight line of the disc (indicated by the dashed line B) where the blanking hole 234 is located is smaller than the distance L2 from the orthographic projection of the second end 242 on the disc 231 (i.e., the inner end a2 of the orthographic projection of the pusher plate 240 on the disc shown by the dashed line box) to the radial straight line of the disc (indicated by the dashed line B) where the blanking hole 234 is located. Therefore, the material pushing plate 240 and the blanking hole 234 are not opposite to each other in the vertical direction, namely, are staggered with each other, that is, an included angle exists between orthographic projections of the blanking hole 234 and the material pushing plate 240 on the same horizontal plane, so that the material pushing plate 240 can gradually push the food material to the periphery of the cavity 250, and the situation that the material pushing plate 240 beats or impacts the food material to damage the shape and the taste of the food material is avoided.

Further preferably, an included angle between orthographic projections of the blanking hole 234 and the material pushing plate 240 on the same horizontal plane is greater than 20 °, that is, the material pushing plate 240 and the blanking hole 234 are not too close to each other, that is, the material pushing plate 240 and the cutting edge 233 are not too close to each other, and a sliding space should be reserved for the food material, so as to prevent the material pushing plate 240 from extruding and stacking the food material or causing the food material to be jammed at the blanking hole 234.

As a specific embodiment, as shown in fig. 4 and 5, the material pushing plate 240 is arc-shaped and long, and the protruding direction of the arc is along the rotation direction of the cutter head 230, i.e. the arc-shaped surface of the material pushing plate 240 faces the food material falling from the material dropping hole 234, taking the clockwise rotation of the cutter head 230 shown in fig. 4 as an example, the material pushing plate 240 protrudes to the left. When the material pushing plate 240 rotates to the material receiving portion, the arc-shaped surface thereof is more favorable for pushing the material receiving portion to the outer periphery of the cavity 250, and further smoothly enters the material outlet 270.

Referring to fig. 3 to 5, the food processing assembly 200 of the present embodiment further includes a material loading tray 280 located below the material pushing plate 240, the material loading tray 280 is coaxial with the cutter head 230, and the material loading tray 280 and the cutter head 230 rotate in the same direction and synchronously. Through setting up year charging tray 280 make the edible material after the blade disc 230 processing can fall to year charging tray 280 to the rotation through carrying charging tray 280 is to eating the material with higher speed, and then makes eating the material and throw to discharge gate 270 under the effect of centrifugal force, further reduces to eat and expects in holding the piling up of holding the intracavity 280.

Further, as shown in fig. 3 and 4, a plurality of ribs 281 extending in a radial direction and protruding upward are formed on the upper surface of the tray 280, and the plurality of ribs 281 are arranged in a circumferential direction. The ribs 281 can guide the sliding of the food material relative to the material loading tray 280, so as to facilitate the food material to be separated from the material loading tray 280.

Preferably, a gap exists between the material loading tray 280 and the inner wall of the cavity 250, so as to prevent the material loading tray 280 and the inner wall of the cavity 250 from rubbing against each other, and prevent noise and material debris from being generated. The periphery of the material carrying tray 280 can be provided with a flexible ring in a surrounding manner for blocking the gap, so that the food material is prevented from being clamped in the gap. The flexible ring can be a silica gel ring or a rubber ring.

The material pushing plate 240 and the cutter head 230 are integrated, or the material pushing plate 240 and the material carrying disc 280 are integrated, or the material pushing plate, the cutter head 230 and the material carrying disc 280 are integrated, and can be disassembled, cleaned or maintained together.

In order to facilitate outputting the cut food material, the discharge port 270 is located at a circumferential edge of the material loading tray 280 and is in a cylindrical shape extending downward relative to the lower housing 220, as shown in fig. 1 to 3, a top end of the discharge port 270 has a guiding inclined plane 271 for facilitating the food material to enter into the discharge port.

The feed inlet 260 is also cylindrical, and the top end of the feed inlet 260 is located above the upper housing 210, and the bottom end thereof extends into the cavity 250 and is located above the cutter head 230. The cylindrical feed inlet 260 is used for limiting and guiding food materials, so that stable and continuous feeding of the food materials is guaranteed.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or that equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.

Claims (10)

1. A vegetable cutting and cooking machine comprises a host and a cooking assembly arranged on the host, wherein a driving device is arranged on the host; the method is characterized in that: the cooking assembly comprises an upper shell, a lower shell, a cutter head and a material pushing plate, wherein the upper shell and the lower shell are matched to form a containing cavity, a feeding hole communicated with the containing cavity is formed in the upper shell, and a discharging hole communicated with the containing cavity and positioned below the cutter head is formed in the lower shell; the cutter head is rotatably arranged in the containing cavity and comprises a disk body and a rotating shaft, the rotating shaft is in transmission connection with the driving device, and the disk body is provided with a cutting edge and a blanking hole positioned below the cutting edge; the material pushing plate is positioned below the tray body and is rotatably arranged in the containing cavity so as to push at least part of the food materials falling through the blanking hole to the discharge hole.

2. The vegetable-cutting food processor as claimed in claim 1, characterized in that: the material pushing plate and the cutter head rotate in the same direction and synchronously, and the rotation axis of the material pushing plate coincides with the axis of the rotating shaft.

3. The vegetable-cutting food processor as claimed in claim 2, characterized in that: the blanking hole is followed the radial extension of disk body, the scraping wings is rectangular form, and its length direction's first end is close to the pivot, the second end is kept away from the pivot, just first end is in orthographic projection on the disk body arrives the radial sharp distance of blanking hole place disk body is less than the second end is in orthographic projection on the disk body arrives the radial sharp distance of blanking hole place disk body.

4. The vegetable-cutting food processor as claimed in claim 3, characterized in that: the included angle between the blanking holes and the orthographic projections of the material pushing plates on the same horizontal plane is more than 20 degrees.

5. The vegetable-cutting food processor as claimed in claim 3, characterized in that: the material pushing plate is arc-shaped and long-strip-shaped, and the arc-shaped protruding direction of the material pushing plate is along the rotating direction of the cutter head.

6. The vegetable-cutting food processor as claimed in claim 2, characterized in that: the cooking assembly further comprises a material carrying disc located below the material pushing plate, the material carrying disc is coaxial with the cutter head, and the material carrying disc and the cutter head rotate in the same direction and synchronously.

7. The vegetable-cutting food processor as claimed in claim 6, wherein: the upper surface of the material loading plate is provided with a plurality of convex ribs which extend along the radial direction and protrude upwards, and the convex ribs are distributed along the circumferential direction.

8. The vegetable-cutting food processor as claimed in claim 7, characterized in that: the material pushing plate and the cutter head and/or the material carrying disc are of an integrated structure.

9. The vegetable-cutting food processor as claimed in claim 7, characterized in that: the discharge gate is located the circumference edge of year charging tray, and for relative casing downwardly extending's tube-shape down, the top of discharge gate has and does benefit to eat the material entering the direction inclined plane of discharge gate.

10. The vegetable-cutting food processor as claimed in claim 9, characterized in that: the feed inlet is a cylinder, the top end of the feed inlet is positioned above the upper shell, and the bottom end of the feed inlet extends into the cavity and is positioned above the cutter head.

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