CN206085168U - Multifunctional vegetable knife - Google Patents

Abstract

The utility model relates to a multifunctional vegetable knife, including first conveying subassembly, a cutting assembly, second conveying subassembly, the 2nd cutting assembly and drive assembly, a cutting assembly includes first arbor and first blade disc, and first the blade disc interval set up on first arbor and the output of perpendicular first conveying subassembly is arranged around including at least first cutter body, second cutter body are provided with the first layer board that the ability bearing treated that cutting expected between this first cutter body and the second cutter body. The utility model discloses a cutting assembly has two sets of cutter bodies of interval arrangement, two sets of cutter bodies respectively with the cooperation of first layer board realized the material the section, shred the function, the material has formed filiformly behind a cutting assembly promptly, filar material falls and transports to the 2nd cutting assembly to the second conveying subassembly on to the further form of coming of age that cuts, the utility model discloses it is rational in infrastructure, compare with the manual cut, effectively reduced workman's intensity of labour, improved machining efficiency, be favorable to reducing the cutting cost of vegetables.

Description

Multifunctional vegetable-cutter

Technical field

The utility model is related to a kind of multifunctional vegetable-cutter.

Background technology

In general food processing field, some packed foods are all processed to sheet or thread wire up into marketing Sell, if in processed food using manually processing, it is necessary to use kitchen knife, but kitchen knife is because small volume, can process Amount it is also few, make the operating efficiency of the processing such as vegetables too low, and using can also injure finger accidentally.Particularly processing capacity is big When, kitchen knife is also very impracticable, not only low also fragile, a large amount of manpower and materials of waste of efficiency.Therefore also occur in that on market Some automanual small kraut cutters by manual shake, the work that although this small kraut cutter reduces operating personnel is strong Degree, improves to a certain extent the size specification of the vegetable that efficiency and specification are processed, but still needs hand Work is operated, and when processing capacity is big, it is still desirable to manually operated vegetable-chopper can not completely liberate operating personnel, therefore be Facilitate to a certain extent and use, be only applicable to be used in small-sized restaurant or family.When processing capacity is especially big, such as In the processing factory of tinned food or packed food, such vegetable-chopper still can not well improve the efficiency of work.And And many vegetable-choppers now, all it is can only to cut into slices or can only chopping, it is impossible to which the choosing of the various shapes such as section or chopping is provided Select.

In order to solve the above problems, a kind of vegetable-chopper that be able to can be cut into slices again with chopping of the applicant's utility model, And applied for utility model patent in 2010《Shredding device of vegetable cutter》(Authorization Notice No.：CN201728676U), this is cut the dish Machine chasing-attachment includes cabinet, the transmission component in cabinet and group of motors, cut into slices component and chopping component, the one of cabinet There is feeding device, feeding device is connected to the section component of cabinet inside on side, outlet and the chopping component of component of cutting into slices Passage is provided between entrance, transfer tape assemble is provided with passage.Above-mentioned shredding device of vegetable cutter is not only able to unrestricted choice section Or chopping, and the thickness thickness degree of the silk that can also select to cut out or piece, greatly reduce the work of work personnel Intensity, accelerates process velocity, improves operating efficiency.But, fruits and vegetables can only be carefully most thread by above-mentioned vegetable-chopper, and If necessary to be fourth shape by fruits and vegetables, then need further artificial, still exist waste time and energy, working (machining) efficiency and safety The low problem of property.

Therefore, for current vegetable-chopper, await further being improved.

Utility model content

Technical problem to be solved in the utility model is the present situation for prior art, there is provided one kind can effectively reduce work Make the labour intensity of personnel, multifunctional vegetable-cutter high in machining efficiency and that vegetables can be cut into fourth shape.

The utility model solve the technical scheme that adopted of above-mentioned technical problem for：A kind of multifunctional vegetable-cutter, including the One transfer assembly, the first cutting assembly, the second transfer assembly, the second cutting assembly and the first transfer assembly, first can be driven to cut Cut component, the second transfer assembly, the drive component of the second cutting assembly operation, it is characterised in that：

First cutting assembly includes the first cutter shaft and the first cutterhead, and what first cutter shaft can be rotated passes located at first Near the output end of sending component, first cutterhead at least includes time interval and is arranged on the first cutter shaft and vertical first biography First cutter hub, second cutter hub of the output end arrangement of sending component, is provided with energy support and treats between first cutter hub and the second cutter hub First supporting plate of cutting material；

The input of second transfer assembly is located at the lower section of the first cutting assembly and can accept the first cutting assembly and cuts Cut the material for obtaining；

Second cutting assembly includes the second cutter shaft and the second cutterhead, and what second cutter shaft can be rotated passes located at second Near the output end of sending component, second cutterhead at least includes time interval and is arranged on the second cutter shaft and vertical second biography 3rd cutter hub, the 4th cutter hub of the output end arrangement of sending component, is provided with energy support and treats between the 3rd cutter hub and the 4th cutter hub Second supporting plate of cutting material.

In such scheme, first cutter hub and the second cutter hub have respectively at least two circumferential uniform blades, phase Blade on adjacent cutter hub is in interlaced arrangement, and the side on each blade towards blade is arc-shaped and cloth in the same direction in the circumferential Put.If the blade parallel on the first cutter hub and the second cutter hub arranged, it is possible to material can be caused in the first cutter hub and second Block between cutter hub, affect cutting effect, and adopt said structure, then avoid the generation of this problem.

Used as further improvement of the utility model, first cutting assembly is located at first installation with lower port In box, first mounting box arranges that the leading flank of first mounting box is provided with and supplies material near the output end of the first transfer assembly First input port of input, upper surface and first input port of first supporting plate flush or less than the first input port arrangement, And be formed between the front side of first supporting plate and the medial surface of the first mounting box for the first cutter hub rotate pass through first between Gap.Using said structure, support effect, behind the first gap, material are played first in the upper surface of the first input port to material Sheet is cut into by the first cutter hub, the material of sheet is transported on the first supporting plate, from the first supporting plate output sheet material again Thread, thread material is cut into through the second cutter hub to drop down onto on the second transfer assembly from the lower port of the first mounting box.

Preferably, the upper surface of first supporting plate is less than first input port lower limb 0.5～2cm arrangements.Using so Structure, make the material of sheet that there is certain decentralization after the first supporting plate, be easy to the second cutter hub to be cut to silk Shape.

Preferably, second cutting assembly has in the second mounting box of lower port located at one, and second mounting box is leaned on The output end arrangement of nearly second transfer assembly, the leading flank of second mounting box is provided with the second input port for material input, institute The upper surface and the second input port for stating the second supporting plate flushes or arranges less than the second input port, and the front side of second supporting plate It is formed with and the medial surface of the second mounting box between and rotates the second gap for passing through for the 3rd cutter hub.Using such structure, one Aspect avoids materials from spattering in cutting process, on the other hand, makes cutting assembly operation more steadily, and cutting effect is more preferable.

In above-mentioned each preferred version, first transfer assembly and the second transfer assembly include connecting gear and Lower connecting gear, the upper connecting gear by a support can rotate located at lower connecting gear top, and upper connecting gear End aligns with the end of lower connecting gear, and the support top hangs the spring that can lift on support.The support Front end both sides are respectively provided with the linking arm for extending downwardly, and described support is articulated with the two of lower connecting gear by the linking arm Side；Pulling part is provided with the top of the support, one end of the spring is connected with the pulling part, the other end of the spring connects It is connected on the vegetable-chopper above the pulling part.Said structure is adopted, so that different size of material is equal when through transfer assembly Can be clamped between transfer assembly, even if transfer assembly plays a part of staff, material be helped, be easy to cutting.

Preferably, the drive mechanism includes the first motor being connected with the first transfer assembly and the first cutting group The 3rd motor that the second motor that part is connected is connected with the second transfer assembly and be connected with the second cutting assembly the 4th Motor.Wherein, first gear is connected with the output end of the first motor, is provided with vegetable-chopper near the first transfer assembly arrangement The first drive link, spaced apart second gear, the 3rd gear, the 4th gear, first gear are provided with the first drive link It is connected by the first driving-chain with second gear, the 3rd gear side is provided with the 5th tooth being meshed with the 3rd gear Wheel, the 5th gear is connected with the drive link of lower connecting gear in the first transfer assembly, and the 4th gear passes through the second driving-chain It is connected with the drive link of upper connecting gear in the first transfer assembly；3rd motor adopt in a like fashion with the second transfer assembly Drive connection.The first cutter shaft drive connection in the output end of the second motor and the first cutting assembly, the 3rd motor is using identical Mode be connected with the second cutting assembly.Said structure is adopted, so that the upload in the first transfer assembly, the second transfer assembly Send mechanism to keep running simultaneously with lower connecting gear, make material transportation steady.

In above-mentioned each scheme, second transfer assembly is arranged vertically with the first transfer assembly.Using such structure, Thread material is cut into by the first cutting assembly to drop down onto on the second transfer assembly, it is thread after the output of the second transfer assembly One end of material is narrowly focused towards the second cutting assembly arrangement, is easy to that filamentary material is further cut into fourth shape.

Compared with prior art, the utility model has the advantage of：Delivery outlet of the utility model in the first transfer assembly On be provided with the first cutting assembly, first cutting assembly has spaced apart two groups of blades, and two groups of blades are respectively with first Supporting plate coordinates section, the chopping function for realizing material successively, i.e., material has formed thread after the first cutting assembly, silk The material of shape drops down onto and the second cutting assembly is transported on the second transfer assembly, and cuts material further with the second cutting assembly Cheng Dingzhuan, the utility model is rational in infrastructure, and compared with artificial cutting of the prior art, the work for effectively reducing workman is strong Degree, improves working (machining) efficiency and processing safety, advantageously reduces the cutting cost of vegetables.

Description of the drawings

Fig. 1 is the structural representation of the utility model embodiment；

Fig. 2 is the structural representation of another angles of Fig. 1；

Fig. 3 is the part-structure schematic diagram of the utility model embodiment；

Fig. 4 is the structural representation of the first cutting assembly in the utility model embodiment；

Fig. 5 is the part-structure schematic diagram of Fig. 4.

Specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing embodiment.

As shown in Fig. 1～5, the multifunctional vegetable-cutter of the present embodiment includes that frame 100, the first transfer assembly 1, first are cut Component 2, the second transfer assembly 3, the second cutting assembly 4 and the first transfer assembly 1, the first cutting assembly 2, second can be driven to transmit Component 3, the second cutting assembly operation 4 drive component, the first transfer assembly 1, the first cutting assembly 2, the second transfer assembly 3, Second cutting assembly 4, drive component is in frame 100.

Specifically, as shown in figure 4, the first cutting assembly 2 includes the first cutter shaft 21 and the first cutterhead, the first cutter shaft 21 can turn It is dynamic near the output end of the first transfer assembly 1, the first cutterhead at least includes time interval and is arranged on the first cutter shaft 21 Two cutter hubs of the output end arrangement of upper and vertical first transfer assembly 1, the first cutterhead in the present embodiment is provided with two knives Body, i.e. the first cutter hub 23 and the second cutter hub 24, it is certainly, thinner in order to cut material silk, more cutter hubs can also be set.The The first supporting plate 22 of energy support material to be cut is provided between one cutter hub 23 and the second cutter hub 24.First cutter hub 23 and the second knife Body 24 has respectively at least two circumferential uniform blades 234, and each cutter hub is provided with three blades 234 in the present embodiment, More can certainly be set to, blade 234 can be fixed by screws in the mounting disc 211 of the first cutter shaft 21, be easy to more Change and adjust knife number.Mounting disc 211 can directly be integrally machined to form, or individually process with the first cutter shaft 21 It is nested with afterwards on the first cutter shaft 21 and by screw and fixes.Blade 234 on first cutter hub 23 and the second cutter hub 24 is in staggeredly Arrangement, the side on each blade 234 towards blade is arc-shaped and arranges in the same direction in the circumferential.If by the first cutter hub 23 and the second fan-shaped blade parallel arrangement on cutter hub 24, it is possible to material can be caused in the first cutter hub 23 and the second cutter hub 24 Between block, affect cutting effect, and adopt said structure, then avoid the generation of this problem.Under assembling completion status, the All blades 234 on one cutterhead are spaced in the circumferential and are uniformly distributed, so that material cutting is more uniform.First cutting assembly 2 have in the first mounting box 5 of lower port located at one, and first mounting box 5 is arranged near the output end of the first transfer assembly 1, The leading flank of first mounting box 5 is provided with the first input port 51 for material input, and the upper surface of the first supporting plate 22 is defeated with first Entrance 51 flushes or arranges less than the first input port 51, and for example, the upper surface of the first supporting plate 22 can be less than the first input port 51 0.5～2cm of lower limb is arranged, so that the material of sheet, with certain decentralization, is easy to second after the first supporting plate 22 Cutter hub 24 is cut to thread.It is formed with for the first knife between the medial surface of the front side of the first supporting plate 22 and the first mounting box 5 Body 23 rotates the first gap 52 for passing through, and in cutting, support effect is played first in the upper surface of the first input port 51 to material, Behind the first gap 52, material is cut into sheet by the first cutter hub 23, and the material of sheet is transported on the first supporting plate 22, Jing Crossing the sheet material of the first supporting plate 22 can occur a certain degree of dispersion, and the sheet material from the output of the first supporting plate 22 is again through the Two cutter hubs 24 be cut into it is thread, the input of the second transfer assembly 3 be located at the lower section of the first cutting assembly 2 and with the first transmission Component 1 is arranged vertically, and thread material is dropped down onto on the second transfer assembly 3 from the lower port of the first mounting box 5, through the second transmission One end of filamentary material is narrowly focused towards the second cutting assembly arrangement after the output of component 3, is easy to further cut filamentary material For fourth shape.

As shown in figure 3, the second cutting assembly 4 includes the second cutter shaft 41 and the second cutterhead, what the second cutter shaft 41 can be rotated sets Near the output end of the second transfer assembly 3, the second cutterhead is at least included and is arranged on the second cutter shaft 41 and vertical second biography 3rd cutter hub 42 and the 4th cutter hub 44 of the output end arrangement of sending component 3.Material can be cut into after the 3rd cutter hub 42 Fourth shape, but in order that material can be cut into be more uniformly distributed, careful fourth shape, second cutterhead of the present embodiment is provided with the 4th knife Body 44, it is of course also possible to arrange more cutter hubs, the arranged for interval of the 4th cutter hub 44 is in the rear side of the 3rd cutter hub 42, the second supporting plate 43 The material that simultaneously cutting of the 3rd cutter hub of energy support 42 is obtained between the 3rd cutter hub 42 and the 4th cutter hub 44.Second cutting assembly 4 Have in the second mounting box 6 of lower port located at one, second mounting box 6 is arranged near the output end of the second transfer assembly 3, should The leading flank of the second mounting box 6 is provided with the second input port 61 for material input, the upper surface of the second supporting plate 43 and the second input Mouth 61 flushes or arranges less than the second input port 61, and between the medial surface of the front side of the second supporting plate 43 and the second mounting box 6 It is formed with and rotates the second gap 62 for passing through for the 3rd cutter hub 42.Wherein, the 3rd cutter hub 42, the structure of the 4th cutter hub 44 and arrangement Mode is identical with the first cutter hub 23, the second cutter hub 24.

In the present embodiment, the first transfer assembly 1 and the second transfer assembly 3 include connecting gear 11 and lower transmission Mechanism 12, upper connecting gear 11 by a support 13 can rotate above the lower connecting gear 12, and upper connecting gear 11 End aligns with the end of lower connecting gear 12, and the top of support 13 hangs the spring 14 that can lift on support 13.Support 13 Front end both sides be respectively provided with the linking arm 131 for extending downwardly, support 13 is articulated with lower connecting gear 12 by the linking arm 131 Both sides.The top of support 13 is provided with pulling part 132, and one end of spring 14 is connected with the pulling part 132, spring 14 it is another End is connected on the mounting box of the top of pulling part 132.Above-mentioned transfer assembly structure can make different size of material through passing Can be clamped in during sending component between upper connecting gear 11 and lower connecting gear 12, even if transfer assembly plays a part of staff, Material is helped, is easy to cutting.

As shown in Fig. 2 drive mechanism includes the first motor 10 being connected with the first transfer assembly 1 and the first cutting group The 3rd motor 30 and be connected with the second cutting assembly 4 that the second motor 20 that part 2 is connected is connected with the second transfer assembly 3 The 4th motor 40 for connecing.Wherein, first gear 101 is connected with the output end of the first motor 10, is provided with frame 100 close First transfer assembly 1 arrangement the first drive link 102, be provided with the first drive link 102 spaced apart second gear 103, 3rd gear 104, the 4th gear 105, first gear 101 is connected with second gear 103 by the first driving-chain 106, the The side of three gear 104 is provided with the 5th gear 107 being meshed with the 3rd gear 104, the 5th gear 107 and the first transmission The drive link of lower connecting gear 12 is connected in component 1, and the 4th gear 105 is by the second driving-chain 108 and the first transfer assembly 1 In the drive link of upper connecting gear 11 be connected；3rd motor 30 adopt in a like fashion with the drive connection of the second transfer assembly 3. Said structure is adopted, so that the upper connecting gear 11 in the first transfer assembly 1, the second transfer assembly 3 is protected with lower connecting gear 12 Synchronous operation is held, makes material transportation steady.The output end of the second motor 20 drives with the first cutter shaft 21 in the first cutting assembly 2 Connection, the 3rd motor 30 is adopted and is connected with the second cutting assembly 4 in a like fashion.

Using the present embodiment vegetable-chopper when, material to be cut is placed on the first transfer assembly 1, material first transmission Contact with the first cutter hub 23 first in the output end of component 1, sheet is cut into by the first cutter hub 23, the material of sheet is through There is a certain degree of dispersion after one supporting plate 22 and continue conveying, then be cut into after the second cutter hub 24 it is thread； Thread material is dropped down onto on the second transfer assembly 4, and cuts into fourth by the 3rd cutter hub 42 in the output end of the second transfer assembly 4 There is a certain degree of dispersion in shape, the material of fourth shape, then cut under the effect of the 4th cutter hub 44 after the second supporting plate 43 It is cut into more uniform, careful fourth shape.

Claims (9)

1. a kind of multifunctional vegetable-cutter, including the first transfer assembly, the first cutting assembly, the second transfer assembly, the second cutting group Part and can drive the first transfer assembly, the first cutting assembly, the second transfer assembly, the second cutting assembly operation drive component, It is characterized in that：

First cutting assembly includes the first cutter shaft and the first cutterhead, first cutter shaft can rotate located at the first transmission group Near the output end of part, first cutterhead at least includes time interval and is arranged on the first cutter shaft and vertical first transmission group First cutter hub, second cutter hub of the output end arrangement of part, is provided with energy support to be cut between first cutter hub and the second cutter hub First supporting plate of material；

The input of second transfer assembly is located at the lower section of the first cutting assembly and can accept the first cutting assembly and cuts The material for arriving；

Second cutting assembly includes the second cutter shaft and the second cutterhead, second cutter shaft can rotate located at the second transmission group Near the output end of part, second cutterhead at least includes time interval and is arranged on the second cutter shaft and vertical second transmission group 3rd cutter hub, the 4th cutter hub of the output end arrangement of part, is provided with energy support to be cut between the 3rd cutter hub and the 4th cutter hub Second supporting plate of material.

2. multifunctional vegetable-cutter according to claim 1, it is characterised in that：First cutter hub has respectively with the second cutter hub There are at least two circumferential uniform blades, the blade on adjacent cutter hub is in interlaced arrangement, and the side on each blade towards blade is Arc-shaped is simultaneously arranged in the same direction in the circumferential.

3. multifunctional vegetable-cutter according to claim 2, it is characterised in that：Under first cutting assembly has located at one In first mounting box of port, first mounting box is arranged near the output end of the first transfer assembly, before first mounting box Side is provided with the first input port for material input, and the upper surface of first supporting plate flushes or less than the with the first input port One input port is arranged, and is formed between the front side of first supporting plate and the medial surface of the first mounting box for the rotation of the first cutter hub The first gap for passing through.

4. multifunctional vegetable-cutter according to claim 3, it is characterised in that：The upper surface of first supporting plate is less than first Input port lower limb 0.5～2cm arrangements.

5. multifunctional vegetable-cutter according to claim 1, it is characterised in that：Second transfer assembly and the first transmission group Part is arranged vertically.

6. multifunctional vegetable-cutter according to claim 1, it is characterised in that：Under second cutting assembly has located at one In second mounting box of port, second mounting box is arranged near the output end of the second transfer assembly, before second mounting box Side is provided with the second input port for material input, and the upper surface of second supporting plate flushes or less than the with the second input port Two input ports are arranged, and are formed between the front side of second supporting plate and the medial surface of the second mounting box for the rotation of the 3rd cutter hub The second gap for passing through.

7. the multifunctional vegetable-cutter according to any claim in claim 1～6, it is characterised in that：Described first passes Sending component and the second transfer assembly include connecting gear and lower connecting gear, and the upper connecting gear passes through a support energy What is rotated aligns located at lower connecting gear top, and the end of upper connecting gear with the end of lower connecting gear, the support Top hangs the spring that can lift on support.

8. multifunctional vegetable-cutter according to claim 7, it is characterised in that：The front end both sides of the support be respectively provided with to The linking arm of lower extension, described support is articulated with the both sides of lower connecting gear by the linking arm；Set at the top of the support Pulling part is equipped with, one end of the spring is connected with the pulling part, the other end of the spring is connected to above the pulling part On vegetable-chopper.

9. the multifunctional vegetable-cutter according to any claim in claim 1～6, it is characterised in that：The driving machine Structure includes that the second motor and second that the first motor being connected with the first transfer assembly is connected with the first cutting assembly is passed The 3rd motor that sending component is connected and the 4th motor being connected with the second cutting assembly.