CN217494393U - Cutter head and dicing machine - Google Patents

Abstract

The application discloses blade disc and easy food dicer for the blade disc of easy food dicer includes disk body and blade. The tray body is formed with heavy groove, and the bottom surface in heavy groove is provided with the boss, and the tray body is equipped with the via hole, and the via hole runs through the tray body and communicates with heavy groove along the thickness direction of tray body. The blade is installed on the one side that the boss deviates from the bottom surface of heavy groove, is formed with the passageway that supplies the material to pass through between blade and the via hole. So, can follow feed opening whereabouts to cutter position at materials such as fruit, the bottom of material can for a short time support and hold in the heavy groove, and the disk body can drive the blade rotation and then will fall the material cutting in the heavy groove for materials such as fruit can be cut into the butyl, also can guarantee simultaneously that the material has the same size, then the material of butyl gets into in the material receiving box that loads the butyl material from the via hole.

Description

Cutter head and dicing machine

Technical Field

The application relates to the technical field of food processing, in particular to a cutter disc and a dicing machine.

Background

Currently, fruits and berries are added to food and drink as raw material dices to improve the mouthfeel of the food and drink. In order to ensure the freshness of the diced fruits, fresh fruits need to be subjected to a shredding process using a dicer. However, the material is by the in-process of the cutter cutting of material export under the effect of gravity, and the cutter can hinder the material decline, causes the material decline to appear the card pause unable cutting into the butyl form, can appear the dead phenomenon of card even, and user experience is not good.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a cutter head and a dicing machine.

The cutter disc of the embodiment of the application is used for the dicing machine, and is characterized in that the cutter disc for the dicing machine comprises:

the tray body is provided with a sunken groove, a boss is arranged on the bottom surface of the sunken groove, and the tray body is provided with a through hole which penetrates through the tray body along the thickness direction of the tray body and is communicated with the sunken groove;

the blade, the blade is installed the boss deviates from on the one side of the bottom surface of heavy groove, the blade with be formed with the passageway that supplies the material to pass through between the via hole.

In certain embodiments, the insert comprises a cutting edge, a back, and a flank connecting the cutting edge and the back, the flank facing downward, the flank comprising an inclined surface extending from the cutting edge in a direction toward the back and sloping downward.

In some embodiments, the blade has an arcuate configuration and the via has an arcuate configuration.

In some embodiments, a projection of the cutting edge in a thickness direction of the cutter head is located in the through hole.

In some embodiments, the number of the vias is two, two vias are symmetrically arranged relative to the center of the tray body, and each via is correspondingly provided with one blade.

In some embodiments, the tray body is provided with a mounting hole at a center of the tray body, the mounting hole penetrating the tray body in a thickness direction of the tray body.

In some embodiments, the tray body is provided with a fastening hole spaced apart from the fitting hole, and the fastening hole penetrates the tray body in a thickness direction of the tray body.

In some embodiments, the tray body includes a back surface opposite to the sinking groove, the back surface is provided with a mounting groove, a side surface of the mounting groove is communicated with the mounting hole, and the fastening hole is communicated with the mounting groove.

The dicing machine of this application embodiment includes mount table and above-mentioned arbitrary embodiment the blade disc, the mount table is equipped with the feed opening, the blade disc is installed the below of feed opening.

In the cutterhead and the dicing machine of the embodiment of the application, the cutterhead for the dicing machine comprises a disc body and blades. The tray body is formed with heavy groove, and the bottom surface that sinks the groove is provided with the boss, and the tray body is equipped with the via hole, and the via hole runs through the tray body and with heavy groove intercommunication along the thickness direction of tray body. The blade is installed on the one side that the boss deviates from the bottom surface of heavy groove, is formed with the passageway that supplies the material to pass through between blade and the via hole. So, can follow feed opening whereabouts to cutter position at materials such as fruit, the bottom of material can for a short time support and hold in the heavy groove, and the disk body can drive the blade rotation and then will fall the material cutting in the heavy groove for materials such as fruit can be cut into the butyl, also can guarantee simultaneously that the material has the same size, then the material of butyl gets into in the material receiving box that loads the butyl material from the via hole.

In certain embodiments, the dicing machine includes a drive mechanism for driving the cutterhead in rotation.

Additional aspects and advantages of the present application 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 present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic perspective view of a dicing machine according to an embodiment of the present application;

FIG. 2 is another perspective view of the dicing machine according to the embodiment of the present application;

fig. 3 is a perspective view of a cutter head according to an embodiment of the present application;

FIG. 4 is a perspective view of a tray body according to an embodiment of the present application;

FIG. 5 is a perspective view of a blade according to an embodiment of the present application;

FIG. 6 is a schematic cross-sectional view of a blade according to an embodiment of the present application;

FIG. 7 is a plan view of the cutter head of the present embodiment;

fig. 8 is an exploded view of the cutter head according to the embodiment of the present invention.

Description of the main element symbols:

a dicing machine 1000;

the cutter module 100, the mounting table 200, the feed opening 201, the material receiving box 202, the feed cylinder 203, the cutter disc 300, the disc body 31, the sinking groove 311, the boss 312, the through hole 313, the channel 314, the assembly hole 315, the fastening hole 316, the back 317, the mounting groove 3171, the fixed disc 318, the blade 32, the cutting edge 321, the knife back 322, the knife side 323, the inclined plane 3231, the driving mechanism 400, the motor 41, the transmission assembly 42 and the rotating shaft 421.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the application. To simplify the disclosure of the present application, specific example components and settings are described below. Of course, they are merely examples and are not intended to limit the present application. Further, the present application may repeat reference numerals and/or reference letters in the various examples for simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1, a dicing machine 1000 according to an embodiment of the present invention includes an installation table 200 and a cutter head 300 according to an embodiment of the present invention, the installation table 200 is provided with a feed opening 201, and the cutter head 300 is installed below the feed opening 201.

Referring to fig. 2 to 4, the cutter head 300 according to the embodiment of the present invention is used for a dicing machine 1000, the cutter head 300 includes a tray body 31 and blades 32, the tray body 31 is formed with a sinking groove 311, a boss 312 is disposed on a bottom surface of the sinking groove 311, the tray body 31 is provided with a via hole 313, and the via hole 313 penetrates through the tray body 31 along a thickness direction of the tray body 31 and is communicated with the sinking groove 311. The blade 32 is arranged on one surface of the boss 312, which is far away from the bottom surface of the sinking groove 311, and a channel 314 for passing materials is formed between the blade 32 and the through hole 313.

In the cutter disc 300 and the dicing machine 1000 of the embodiment of the present application, the cutter disc 300 for the dicing machine 1000 includes the disc 31 and the blades 32. The tray body 31 is provided with a sinking groove 311, a boss 312 is arranged on the bottom surface of the sinking groove 311, the tray body 31 is provided with a through hole 313, and the through hole 313 penetrates through the tray body 31 along the thickness direction of the tray body 31 and is communicated with the sinking groove 311. The blade 32 is arranged on one surface of the boss 312, which is far away from the bottom surface of the sinking groove 311, and a channel 314 for passing materials is formed between the blade 32 and the through hole 313. So, can follow feed opening 201 whereabouts to the cutter position at materials such as fruit, the bottom of material can support for a short time and hold in heavy groove 311, and disk body 31 can drive the blade 32 rotatory and then will fall to the material cutting in heavy groove 311 for materials such as fruit can be cut into the butyl, also can guarantee simultaneously that the material has the same size, then the material of butyl gets into in the material receiving box 202 that loads the butyl material from the via hole 313.

Specifically, the dicing machine 1000 can dice fruits, vegetables, and the like, so that the food has a good taste. The mounting table 200 can support various elements, and elements such as the cutter head 300 can be arranged inside the mounting table 200, so that the mounting table 200 can have the function of a shell and protect the various elements from the impact and vibration of the external environment.

Further, the blade 32 is installed on the one side that the boss 312 deviates from the bottom surface of heavy groove 311, and then makes blade 32 and heavy groove 311 diapire interval set up, guarantees that easy-to-cut shape size's butyl's material can be cut out to easy-to-cut dicing machine 1000. The sinking groove 311 formed on the tray body 31 can reduce the weight of the dicing machine 1000, and on the other hand, the sinking groove 311 can receive the material sliding down from the feed opening 201, so as to prevent the material from directly entering the material receiving box 202 from the feed opening 201, and at the same time, the size of the T-shaped material can be limited by the distance between the bottom wall of the sinking groove 311 and the blade 32.

In an embodiment of the present invention, the dicing machine 1000 may further include another cutter module 100, and the cutter module 100 may include a first cutter and a second cutter (not shown in the drawings), and the first cutter and the second cutter may be vertically placed at the feed opening 201 and may reciprocate in a horizontal direction, so that the material at the feed opening 201 may be cut into a strip shape. The cutter head 300 may be disposed below the cutter module 100, so that the material cut into strips may be cut into a t shape by the blades 32 of the cutter head 300, and the t-shaped material may enter the material receiving box 202 through the passage 314 and the through hole 313 in sequence.

Referring to fig. 2, in some embodiments, the dicing machine 1000 includes a drive mechanism 400, and the drive mechanism 400 is used to drive the cutter head 300 to rotate.

So, actuating mechanism 400 can stretch into to the pilot hole 315 and drive the blade disc 300 rotation through drive assembly 42, and then makes disk body 31 can drive blade 32 and rotate relative mount table 200, and then can cut the material of discharge gate department, realizes the material function of dicing.

Specifically, the driving mechanism 400 may include a motor 41 and a transmission assembly 42, the motor 41 may be connected to the transmission assembly 42 and control the movement of the cutter module 100 and the cutter head 300 relative to the mounting table 200 through the transmission assembly 42, so as to achieve the function of cutting the material into t-shaped pieces through the cutters and the blades 32. One motor 41 can control a plurality of cutters through the transmission assembly 42, so that linkage of different cutters is realized, and meanwhile, the cutters can be driven only by one motor 41, so that the dicing machine 1000 is compact in structure, the whole weight of the dicing machine 1000 is reduced, and the cost is reduced.

In the present embodiment, the materials of the first tool, the second tool, and the insert 32 are not limited, and the insert 32 may be made of, for example, a stainless steel material or a ceramic tool to satisfy various requirements.

Referring to fig. 5 and 6, in some embodiments, the insert 32 includes a cutting edge 321, a back 322, and a blade side 323 connecting the cutting edge 321 and the back 322, the blade side 323 faces downward, and the blade side 323 includes a slanted surface 3231 extending from the cutting edge 321 in the direction of the back 322 and slanting downward.

Therefore, the material can fall to the feed opening 201 and is cut by the cutting edge 321 of the blade 32 at the feed opening 201, the side 323 of the blade 32 can continuously press down the cut partial material, so that the material is ensured to descend smoothly, the problem that the size and the weight of the dicing machine 1000 are increased due to the fact that an additional thrust mechanism is added to drive the material to descend is avoided, and the user experience is better.

Further, referring to fig. 5, in some embodiments, the blade 321 has an arc-shaped structure and the via 313 has an arc-shaped structure. Therefore, the cutting effect of the arc-shaped cutting edge 321 is better, the materials can be cut by the cutting edge 321, and the cut materials can also fall into the material receiving box 202 for loading the T-shaped materials from the arc-shaped through hole 313. The cutting edge 321 and the through hole 313 correspond in shape so that the material falling into the sink 311 drops into the material receiving box 202 through the through hole 313 immediately after being cut by the cutting edge 321.

It can be understood that the disk 31 rotates to drive the blade 32 to rotate, so that the blade 321 can firstly cut the material through the feed opening 201, and the material cut by the blade 32 can continue to move downwards along the inclined surface 3231 and pass through the through hole 313 to enter the material receiving box 202. In the embodiment of the present application, the cutter head 300 may be semicircular, the cutting edge 321 is semicircular, and the through hole 313 is also in an arc structure, so that the cut material may slide into the through hole 313 along the side 323 of the cutter, and meanwhile, the uncut material may be supported on the blade 32, thereby preventing the uncut material from entering the material receiving box 202 through the through hole 313.

In some embodiments, the cutting edge 321 may also be in a semicircular arc shape, 1/3 arc shape, 1/4 arc shape, and the like, and the through hole 313 and the cutting edge 321 only need to maintain the same shape, and the specific embodiment is not limited herein.

Referring to fig. 7, in some embodiments, the projection of the cutting edge 321 in the thickness direction of the cutter head 300 is located in the through hole 313. Therefore, all the materials in the sinking groove 311 can be ensured to directly fall into the material receiving box 202 from the via hole 313 after being cut by the blade 321, and the materials are prevented from being detained in the sinking groove 311 after being diced.

Referring to fig. 7 and 8, in some embodiments, the number of the vias 313 is two, two vias 313 are symmetrically arranged with respect to the center of the tray 31, and one blade 32 is correspondingly arranged on each via 313.

So, two blades 32 can cooperate two via holes 313 for blade disc 300 can drive two blades 32 when rotatory and cut the material, and fall into to the material receiving box 202 from two via holes 313, and then can improve the cutting frequency of the cutting edge 321 of blade disc 300, guarantee that the material that reaches feed opening 201 can be cut by the fly, improve the efficiency that the material descends and dices.

Of course, in the embodiment of the present application, the number of the via holes 313 and the blades 32 is not limited, and only the number of the via holes 313 and the blades 32 needs to be correspondingly set, for example, the number of the blades 32 and the via holes 313 may be three, and the number of the blades 32 and the via holes 313 may also be four, so as to meet different requirements.

Referring to fig. 8, in some embodiments, the tray 31 is provided with a mounting hole 315, the mounting hole 315 is located at the center of the tray 31, and the mounting hole 315 penetrates through the tray 31 along the thickness direction of the tray 31.

So, drive assembly 42 can stretch into to the pilot hole 315 and drive the blade disc 300 rotation through pivot 421, and then makes disk body 31 can drive blade 32 and rotate relative mount table 200, and then can cut the material of discharge gate department, realizes the material dicing.

Further, referring to fig. 8, in some embodiments, the tray body 31 is provided with fastening holes 316, the fastening holes 316 are spaced apart from the mounting holes 315, and the fastening holes 316 penetrate through the tray body 31 in a thickness direction of the tray body 31.

Thus, the fastening holes 316 are used for mounting other fasteners on the tray body 31, so that the fasteners can fasten the rotating shaft 421 of the transmission assembly 42 and the tray body 31 together, and the transmission assembly 42 can drive the turntable to rotate together when rotating.

Specifically, the other fastening member may be a fixing plate 318, the fixing plate 318 is formed with a connection hole corresponding to the fastening hole 316, and a fastening member such as a screw or a bolt may be inserted into the connection hole and the fastening hole 316, so that the fixing plate 318 and the plate body 31 may be fixedly connected together. A shaft hole connected with the rotating shaft 421 may be further formed in the middle of the fixed disk 318, and the rotating shaft 421 may extend into the assembly hole 315 and be connected to the shaft hole, so that the disk body 31 is driven to rotate by the fixed disk 318 when the motor 41 drives the rotating shaft 421 to rotate, and the blade 32 may cut the material into a t shape.

Referring to fig. 7 and 8, in some embodiments, the tray 31 includes a back surface 317 opposite to the sinking groove 311, the back surface 317 is provided with a mounting groove 3171, a side surface of the mounting groove 3171 is communicated with the mounting hole 315, and the fastening hole 316 is communicated with the mounting groove 3171.

Therefore, the rotating shaft 421 can extend into the mounting groove 3171 from one side of the sinking groove 311 of the disc body 31 and is connected to the fixing disc 318, the fixing disc 318 is mounted in the mounting groove 3171, and then the rotating shaft 421 and the disc body 31 can be fastened, so that the rotating shaft 421 can drive the disc body 31 to rotate together, and further the function of cutting materials by the cutter disc 300 is realized.

In the description of the embodiments of the present application, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to imply that the number of indicated technical features is significant. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically defined otherwise.

In the description herein, references to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like 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 present application. In this specification, schematic representations of the above terms 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.

Although embodiments of the present application have been shown and described above, it is to be understood that the above embodiments are exemplary and not to be construed as limiting the present application, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (10)

1. A cutter head for a dicing machine, characterized in that the cutter head for a dicing machine comprises:

the tray body is provided with a sinking groove, a boss is arranged on the bottom surface of the sinking groove, and the tray body is provided with a through hole which penetrates through the tray body along the thickness direction of the tray body and is communicated with the sinking groove;

the blade, the blade is installed the boss deviates from on the one side of the bottom surface of heavy groove, the blade with be formed with the passageway that supplies the material to pass through between the via hole.

2. The cutter head for a dicer as set forth in claim 1, wherein said blades include a cutting edge, a back and a side surface connecting said cutting edge and said back, said side surface facing downward, said side surface including an inclined surface extending from said cutting edge in a direction toward said back and inclined downward.

3. The cutter head for a dicer as set forth in claim 2, wherein said cutting edge is of an arc-shaped configuration and said through hole is of an arc-shaped configuration.

4. The cutter head for a dicer of claim 2, wherein a projection of the cutting edge in a thickness direction of the cutter head is located in the through hole.

5. The cutterhead for a dicing machine according to claim 1, wherein the number of the through holes is two, two of the through holes are symmetrically arranged with respect to the center of the cutterhead body, and one of the blades is correspondingly arranged in each of the through holes.

6. The cutter head for a dicer as set forth in claim 1, wherein said tray body is provided with a fitting hole at a center thereof, said fitting hole penetrating through said tray body in a thickness direction thereof.

7. The cutter head for a dicing machine according to claim 6, wherein the tray body is provided with a fastening hole, the fastening hole is provided at a distance from the fitting hole, and the fastening hole penetrates through the tray body in a thickness direction of the tray body.

8. The cutterhead for a dicing machine according to claim 7, wherein the cutterhead body includes a back surface opposite to the sinking groove, the back surface is provided with a mounting groove, the side surface of the mounting groove is communicated with the assembly hole, and the fastening hole is communicated with the mounting groove.

9. A dicing machine characterized by comprising:

the mounting table is provided with a feed opening;

a cutter head for a dicer as claimed in any one of claims 1-8, said cutter head being mounted below said feed opening.

10. A dicer as claimed in claim 9, which includes a drive mechanism for driving the cutterhead in rotation.

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