CN205704386U - The shredding slicing device of the central rotation cutting of energy automatic centering - Google Patents

Abstract

This utility model relates to the shredding slicing device of the central rotation cutting of a kind of energy automatic centering, including push-rod assembly, with the processing lid (300) of feeding cylinder (301) and Cutting tool (400), push-rod assembly includes pushing rod sleeve (200) and arranges push rod (100) in the inner, pushing rod sleeve (200) tapers into towards the end face indent of food materials, this female parts inside from outward；Cutting tool (400), towards the one side indent of food materials, tapers into inside from outward；The female parts of the two is respectively used to guide food materials two ends to be cut the center of the two female parts；The cross section of inboard wall of feeding cylinder (301) is undaform, and correspondingly, the external wall cross-section of pushing rod sleeve (200) is undaform.This utility model can realize food materials and Cutting tool all energy automatic centerings of different-diameter, and can guarantee that food materials are smooth and easy with Cutting tool automatic centering.

Description

The shredding slicing device of the central rotation cutting of energy automatic centering

Technical field

This utility model relates to a kind of utensil that vegetables and fruits carry out shredding section, particularly relates to vegetables and fruits carry out spiral cutting to obtain strip taenidium or the shredding slicing device of continuous helical sheet food materials.

Background technology

Existing employing spiral cutting mode processes electronic shredding food slicer or the electric food processor of food materials, its ultimate principle is, food materials are concentric with Cutting tool to be placed, separately it is additionally provided with push rod, food materials are fixed in feeding cylinder, the method generally used is: utilizes the spine bottom push rod to be inserted by food materials solid, prevents from relatively rotating between itself and push rod, be provided with slidably spline structure simultaneously between push rod and feeding cylinder.Push rod is for pressing to Cutting tool by the food materials in feeding cylinder, food materials are only capable of moving towards Cutting tool direction, but can not rotate, and Cutting tool is motor driven rotation, and drive the concentric rotation of cutting tool being arranged on Cutting tool, realize food materials are carried out continuous cutting, thus obtain the food materials cutting effect of strip taenidium and continuous helical plate shape.

Generally, process demand for satisfied different food materials shapes, this series products can be provided with multiple optional Cutting tool, different cutting tools is set on each Cutting tool, to obtain different cross section size and difform strip taenidium and the food materials cutting effect of continuous helical plate shape, or interchangeable cutting tool is set on same Cutting tool, by changing different cutting tools, to reach above-mentioned purpose.

Being set to a threading tool sword on Cutting tool coordinates a flat blade in the case of cutting, food materials in feeding cylinder are pressed to Cutting tool by push rod, when being cut the Cutting tool of food materials contact rotation, threading tool sword on Cutting tool vertical direction by food materials bottom to cut out several be concentrically ringed otch, i.e. carry out a point bar cutting, the most striped food materials part passes sequentially through flat blade, and cut in the horizontal direction by flat blade, under push rod continues to push against effect, cut food materials can realize continuous cutting and go out the food materials cutting effect in strip taenidium shape.By adjusting the gap between each blade of threading tool sword, and/or the height adjusting flat blade can get the food materials cutting effect of strip taenidium shape of different cross section size.

Cutting tool is set to a flat blade in the case of cutting, food materials in feeding cylinder are pushed to Cutting tool by push rod, when being cut the Cutting tool of food materials contact rotation, food materials pass sequentially through flat blade, and cut in the horizontal direction by flat blade, under push rod continues to push against effect, cut food materials and can be realized the food materials cutting effect of continuous helical plate shape.By adjusting the food materials cutting effect that the height of flat blade can get the continuous helical plate shape of different-thickness size.

By above-mentioned, vegetables and fruits class food materials are carried out the spiral cutting analysis with the operation principle of the shredding food slicer or food processor that obtain the food materials cutting effect of strip taenidium and continuous helical plate shape, can be seen that, if disalignment or slant setting just cut between food materials and Cutting tool, cut strip taenidium out and continuous helical sector-meeting is cut off, form scrappy short silk and part, it is impossible to realize the expection cutting effect of product.

Therefore, for ensureing optimal spiral cutting effect, need to meet food materials and Cutting tool centring this condition the most crooked；I.e. when food materials are regular shapes, need food materials coaxial with Cutting tool.But the spiral cutting mode that uses of routine processes electronic shredding food slicer or the electric food processor of food materials, generally it is only capable of arranging one or a limited number of charging aperture bore, the demand of its all food materials sizes that can process cannot be met, and when food materials diameter is less than charging aperture bore, food materials and Cutting tool just have and tilt possibility greatly, and, food materials put in the charging aperture bore bigger than its diameter, and food materials are it is difficult to ensure that can be directed at the center of Cutting tool.

Although, use multiple charging aperture bore can improve the probability that food materials are directed at Cutting tool central axis to a certain extent, but, multiple charging aperture bores apply mechanically troublesome poeration, product cost promotes, and because food materials must and can only put in the charging aperture bore bigger than its diameter, as long as and there is gap in food materials and its charging aperture inwall, food materials and Cutting tool cannot centerings, it is impossible to fundamentally solve the problems referred to above.

Simultaneously, by above-mentioned shredding food slicer or the principle Analysis of food processor, can be seen that, although this spiral cutting can break through routine obtains the food materials food materials cutting effect of strip taenidium and continuous helical plate shape, but, owing to being used for inserting food materials solid spine bottom push rod, need to keep one section of safe distance with cutting tool, therefore, this safe distance will form food materials residual with the depth part of spine in insertion food materials.

Food materials defective material is without taking-up, it will be stuck on cutting tool, and the next one can need the food materials cut spaced apart with cutting tool, it is impossible to carrying out the next one needs to cut the process of food materials.

Generally, after conventional products may require that user cuts food materials, manually food materials defective material is taken out, again that Product Assembly is the best, carry out the next one again and need to cut the process of food materials, this process not only bothers, and adds the touch opportunity of user and cutting tool, there is the risk of incised wound user's finger.

It addition, also product design is: the next one, without taking-up, is directly needed the food materials of cutting to put in feeding cylinder, then by the biggest pressure, presses under food materials by force, make above-mentioned food materials defective material be crushed by force by food materials defective material.The method not only makes user feel operation difficultly, and crushed food materials defective material mixes together together with the food materials cut, and user also needs to manual sorting, the most just shows bad overall cutting effect.

Utility model content

The food materials proposing a kind of different-diameter size in place of the technical problems to be solved in the utility model is to avoid the deficiencies in the prior art all can reach the shredding slicing device of gratifying spiral cutting effect with Cutting tool automatic centering.

The technical scheme that the described technical problem of this utility model solution is used is:

The shredding slicing device of the central rotation cutting of a kind of energy automatic centering is proposed, including push-rod assembly, with the processing lid of feeding cylinder and Cutting tool, Cutting tool described in described processing blanketing lid, described push-rod assembly includes pushing rod sleeve and the push rod being arranged in this pushing rod sleeve, described pushing rod sleeve is towards the end face indent of food materials, the left and right of this female parts is mutually symmetrical with relative to its longitudinal center's cutting plane, and this female parts tapers into inside from outward；Described Cutting tool is towards the one side indent of food materials, and the left and right of this female parts is mutually symmetrical with relative to its longitudinal center's cutting plane, tapers into inside from outward；The female parts of described pushing rod sleeve is coaxial with the female parts of Cutting tool, and the female parts of the two is respectively used to guide food materials two ends to be cut the center of the two female parts, it is achieved food materials to be cut and the automatic centering of described Cutting tool.The cross section of inboard wall of described feeding cylinder is undaform, and correspondingly, the external wall cross-section of described pushing rod sleeve is undaform, and the crest of described feeding cylinder inwall and trough are respectively used to the trough with described pushing rod sleeve outer wall and crest laminating.

Further:

Height between adjacent peaks and the trough of described feeding cylinder undaform inwall is at least 1mm.

The female parts of described pushing rod sleeve is frusto-conical face.

The cone angle scope of the indent frusto-conical face of described pushing rod sleeve is 50 degree to 120 degree.

The female parts of described Cutting tool is frusto-conical face.

The cone angle scope of the indent frusto-conical face of described Cutting tool is 90 degree to 150 degree.

Push rod bottom is the thin-walled that several mandrel from which radially extends, correspondingly, the lower end of described pushing rod sleeve, is provided with the holding tank that with pushing rod sleeve central axial outside dissipate suitable with described push rod bottom, to accommodate described push rod bottom.

The width of described holding tank is between 3mm to 40mm.

The end face of described push rod bottom is provided with the slotting tool for being inserted and fixed food materials and/or spine.

The back-moving spring for being resetted by push rod it is provided with between described push rod and pushing rod sleeve.

Also include push rod lid and push rod upper shield, in described push rod lid, be provided with buckle or draw-in groove, correspondingly, be provided with the draw-in groove suitable with the buckle that sets in described push rod lid or draw-in groove or buckle in described push rod upper shield, snap into draw-in groove and push rod is fixed with pushing rod sleeve.

It is provided with in described push rod for releasing release button fixing between push rod and pushing rod sleeve.

Being provided with buckle in described push rod lid, correspondingly, be provided with the draw-in groove suitable with described buckle in described push rod upper shield, described release button acts on described buckle and makes this buckle indentation push rod lid to release fixing between push rod and pushing rod sleeve.

Compared with prior art, this utility model has following technical effect that

This utility model can realize food materials and Cutting tool all energy automatic centerings of different-diameter, it is ensured that the optimum efficiency of the central rotation cutting of food materials.And, the design of undaform between pushing rod sleeve and feeding cylinder contact surface can avoid pushing rod sleeve when moving down, the possibility of the outer ring, pushing rod sleeve lower surface that the female parts of upper push-rod set lower surface is caused by food materials upper end the most in advance and food materials dieback；And cause the slotting tool and/or the spine that arrange on push rod that relative eccentric is inserted food materials upper end, so that skidding and causing the possibility that cannot complete stock removal action occur in food materials, it is ensured that food materials are smooth and easy with Cutting tool automatic centering.

It addition, this utility model can realize being automatically separated of food materials defective material and Cutting tool and push-rod assembly, simplify user operation process.

Accompanying drawing explanation

Fig. 1 is the installation diagram one of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering；

Fig. 2 is the installation diagram two of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering；

Fig. 3 is the decomposing schematic representation of the push-rod assembly of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering；

Fig. 4-1 is the schematic diagram before push rod and the pushing rod sleeve of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering assembles, mark key value width W, Fig. 4-2 is the schematic diagram after push rod and the pushing rod sleeve of shredding slicing device embodiment of central rotation cutting of this utility model food materials energy automatic centering assembles simultaneously；

Fig. 5 is the top view of the feeding cylinder being designed to undaform inwall of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering, signal food materials contact with two adjacent crests, and the unsettled state of trough between two crests adjacent with this and principle；

Fig. 6 is that the Cutting tool of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering is by profile during guide knife disk center bottom food materials；

Fig. 7 be this utility model food materials energy automatic centering central rotation cutting shredding slicing device embodiment pushing rod sleeve outer wall on crest lower end be inserted between the trough on material tube inner wall and food materials unsettled gap time profile, the unsettled gap that crest lower end on signal pushing rod sleeve outer wall is inserted between the trough on material tube inner wall and food materials, makes food materials upper end directly fall directly into the state in the taper surface of the indent on pushing rod sleeve lower surface and principle；

Fig. 8 is the push-rod assembly of shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering profile when being centered at food materials top, signal by push-rod assembly by food materials top guide push-rod assembly center to complete state and principle that food materials upper and lower side is centered simultaneously；

Fig. 9 is the push rod of shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering profile when fixing food materials, and the sharp knife arranged bottom signal push rod and/or spine are inserted and fixed state and the principle of food materials；

Figure 10-1 is that the food materials of shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering cuts the buckle arranged on push rod simultaneously by profile time locked to push rod and pushing rod sleeve, the buckle arranged on push rod while that signal food materials having cut is by state locked to push rod and pushing rod sleeve and principle, and Figure 10-2 is the partial enlarged drawing of Figure 10-1；

Profile when Figure 11 is that after the food materials of shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering cuts, taking-up push-rod assembly takes out food materials defective material simultaneously；

Figure 12-1 is that the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering is pressing release button, and profile when push rod unlocks with pushing rod sleeve illustrates that its unlocking motion and principle, Figure 12-2 are the partial enlarged drawings of Figure 12-1；

Figure 13 is that the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering is after pressing release button, push rod moves up profile during reset, signal push rod moves up reset under the elastic force effect of its back-moving spring, action that push rod bottom is fully retracted in pushing rod sleeve and principle；

Figure 14 is the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering profile when food materials defective material comes off；

Figure 15 is the profile of the pushing rod sleeve of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering, to indicate the cone angle A that its lower surface is designed to the cone of indent；

Figure 16 is the profile of Cutting tool of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering, is designed to the cone angle B of recessed cone indicating its center；

Figure 17 is the overall schematic of the shredding slicing device embodiment of the central rotation cutting of this utility model food materials energy automatic centering.

Detailed description of the invention

In conjunction with accompanying drawing, embodiment of the present utility model is elaborated.

For the needs illustrated, sometimes the width of some element, length, thickness etc. in schematic diagram are carried out exaggeration and represents.

The shredding slicing device embodiment of the central rotation cutting of this utility model energy automatic centering includes with lower part: as shown in Fig. 1-3 and Figure 17, including push-rod assembly, with the processing lid 300 of feeding cylinder 301 and Cutting tool 400, the described processing lid 300 described Cutting tool 400 of covering, described push-rod assembly includes pushing rod sleeve 200 and the push rod 100 being arranged in this pushing rod sleeve.Described pushing rod sleeve 200 is towards the end face indent of food materials, and the left and right of this female parts is mutually symmetrical with relative to its longitudinal center's cutting plane, and this female parts tapers into inside from outward；Described Cutting tool 400 is towards the one side indent of food materials, and the left and right of this female parts is mutually symmetrical with relative to its longitudinal center's cutting plane, tapers into inside from outward；Described pushing rod sleeve 200 is coaxial with Cutting tool 400, the female parts of described pushing rod sleeve 200 is coaxial with the female parts of Cutting tool 400, the female parts of the two is respectively used to guide food materials two ends to be cut the center of the two female parts, it is achieved food materials to be cut and the automatic centering of described Cutting tool 400.

The female parts of described pushing rod sleeve 200 and Cutting tool 400 can be designed to conical butt, it is also possible to is designed to the polygonal pyramid shape such as triangular pyramid, rectangular pyramid, or other outer little class taper big, interior.In the most each embodiment, all the female parts by described pushing rod sleeve 200 and Cutting tool 400 be designed to conical butt, described pushing rod sleeve coaxial with Cutting tool as a example by.

As shown in Figure 1 to Figure 3, the shredding slicing device of the central rotation cutting of energy automatic centering is provided with push rod 100 and the push-rod assembly of pushing rod sleeve 200 composition, push rod 100 is can be assembled in pushing rod sleeve 200 in the way of freely up and down activity, one or several back-moving spring 100D it is provided with between push rod 100 and pushing rod sleeve 200, push rod 100 upwards jack-up is resetted in pushing rod sleeve 200 by it so that push rod bottom 100A closes at the inside of the holding tank 200C of pushing rod sleeve 200 bottom completely.

For auxiliary push-rod 100 and the assembling of pushing rod sleeve 200, being provided with push rod upper shield 104, pushing rod sleeve lid is provided with several assembling catching groove 104A, this assembling catching groove 104A and coordinates with the assembling button 200A arranged on pushing rod sleeve 200, it is achieved the assembling of push-rod assembly.

Pushing rod sleeve 200 is designed to the cone of indent towards the end face in food materials direction, and the effect of the conical end face of this indent is: when pushing down on food materials, and food materials can move along the coned face of its indent heart wherein, by food materials top guide pushing rod sleeve concave surface center.As shown in figure 15, the optimal set point of the cone angle A of above-mentioned pushing rod sleeve 200 coned face is 50 degree to 120 degree.

As shown in Fig. 4-1 and Fig. 4-2, push rod bottom 100A shape is designed to several thin-walled radially extended by its central shaft, the most several thin-walleds in divergent shape, if including three pieces of thin-walleds, then the cross section of push rod bottom 100A is trident；If including four pieces of thin-walleds, then the cross section of push rod bottom 100A is cross, etc..The slotting tool 100C for being inserted and fixed food materials, preventing food materials from rotating in contrast and/or spine 100B it is provided with food materials on the end face that push rod bottom 100A contacts.

Pushing rod sleeve 200 lower end, the shape of corresponding push rod bottom 100A is provided with the holding tank 200C of corresponding divergent shape, to accommodate push rod bottom 100A.Push rod bottom 100A and holding tank 200C is designed to the effect of divergent shape and is: make respective width W of holding tank 200C narrow, diameter less than food materials end, avoid food materials to snap in holding tank 200C when moving from its center, coned face lateral of pushing rod sleeve 200 lower end indent, make one end of 200 times end in contact of food materials and pushing rod sleeve to move from its center, coned face lateral smoothly.Meanwhile, above-mentioned diverging structure also has the rotation stopping function between push rod 100 and pushing rod sleeve 200.

The optimal set point of respective width W of above-mentioned holding tank 200C is 3mm≤W≤40mm.

Push push rod 100, push rod 100 overcomes the elastic force of back-moving spring 100D to move down, push rod bottom 100A can stretch out in the holding tank 200C from pushing rod sleeve 200, the slotting tool 100C arranged on it and/or spine 100B inserts food materials and is fixed, and under the pressure of push-rod assembly, move down, promote food materials to feed.

As shown in Figure 6, push rod 100 upper end is provided with push rod lid 103, is used for installing buckle 102 and back-moving spring 102A, release button 101 and back-moving spring 101A thereof.As shown in Figs. 7-9, push rod 100 is descending completes its setting stroke, just past push rod upper shield 104 position, buckle 102 embeds in the draw-in groove 104B arranged on push rod upper shield 104, thus push rod 100 is clasped by pushing rod sleeve 200, overcome the elastic force of back-moving spring 100D, so the most just can anti-throw-out lever 100 self-resetting under the elastic force effect of back-moving spring 100D, cause inserting the food materials defective material being affixed on 100A lower surface, push rod bottom to depart from downwards, cause food materials to depart from feeding cylinder 301, remain on Cutting tool 400.

As shown in Fig. 9 to Figure 12, push rod 100 is provided with release button 101, user presses release button 101 after taking out push-rod assembly in feeding cylinder 301, buckle 102 moves to the central axis direction of push rod 100 under the driving of release button 101, exit the draw-in groove 104B arranged on push rod upper shield 104, push rod 100 moves up reset under the elastic force effect of its back-moving spring 100D, and push rod bottom 100A is fully retracted in the holding tank 200C of pushing rod sleeve 200 bottom.Realize user and can control the disengaging of food materials defective material, depart from process convenient, secure and reliable.

As shown in Figure 1, Figure 2, shown in Fig. 6 and Fig. 7, it is provided with the Cutting tool 400 for realizing skiver's energy, the cutwork part at Cutting tool 400 center is recessed cone, its taper surface is provided with cutting tool, generally, it is provided with threading tool sword 402 simultaneously and flat blade 401 can get the cutting effect of strip taenidium, be separately provided flat blade 401 and i.e. can get the food materials cutting effect of continuous helical plate shape.By adjusting the gap between each blade of threading tool sword 402, and/or the height adjusting flat blade 401 can get the food materials cutting effect of strip helical of different cross section size or the food materials cutting effect of the continuous helical lamellar of different-thickness size.

As shown in figure 16, the optimal set point of the cone angle B of the coned face of the cutwork part at above-mentioned Cutting tool 400 center: 90 degree≤B≤150 degree.

The cutwork part at Cutting tool 400 center is designed to the effect of recessed cone and is: during the cutwork part contact at food materials and Cutting tool 400 center, under the effect of himself gravity and the pushing force of push-rod assembly, can move along its recessed coned face heart wherein, it is achieved food materials and the alignment function of Cutting tool 400.Cutting tool 400, by the motor arranged on product and transmission system drives thereof, around its central rotation, and drives the concentric rotation of cutting tool being arranged on.

As it is shown in figure 5, the arc surface of feeding cylinder 301 inwall rule is designed to undaform, the width setup of two crest 301B is L2, the L2 diameter less than common food materials；Height between crest 301B and trough 301A is set as L1, L1 >=1mm.Simultaneously, as shown in Fig. 4-1 and Fig. 4-2, pushing rod sleeve 200 outer wall is correspondingly designed to undaform, the crest 200E of pushing rod sleeve 200 outer wall fits the trough 301A of feeding cylinder 301 inwall successively, the trough 200D of pushing rod sleeve 200 outer wall fits the crest 301B of feeding cylinder 301 inwall successively, and leaving certain gap between, push-rod assembly can be the most up and down in feeding cylinder 301.

Simultaneously, crest 301B and trough 301A on feeding cylinder 301 inwall fit successively with the trough 200D and crest 200E of relative set on pushing rod sleeve 200 outer wall, the spline effect between push-rod assembly and feeding cylinder 301 can be played, prevent from mutually rotating between push-rod assembly and feeding cylinder 301.

As it is shown in figure 5, when food materials are put in feeding cylinder 301, food materials upper end and feeding cylinder 301 contact internal walls, it is designed to wave owing to feeding cylinder 301 is internal, the crest 301B that food materials can only be adjacent with two contacts, and can not contact with trough 301A.And the crest 200E of pushing rod sleeve 200 outer wall fits in the trough 301A of feeding cylinder 301 inwall, the trough 301A that the i.e. crest 200E of pushing rod sleeve 200 outer wall againsts feeding cylinder 301 inwall is descending, the crest 200E lower end of pushing rod sleeve 200 outer wall is inserted into the gap between trough 301A and the food materials on barrel 301 inwall, and during with food materials upper-end contact, food materials upper end can enter directly in the taper surface of the indent on pushing rod sleeve 200 lower surface, and then from however slide to its center along this taper surface smoothly, complete food materials upper end to central action.

Above-mentioned design can avoid food materials upper end and the feeding cylinder contact internal walls being designed to arc surface, and outer wall is similarly designed to the pushing rod sleeve of arc surface when moving down, upper push-rod is overlapped the taper seat of the indent of lower surface by food materials upper end the most in advance, one circle pinnacle of periphery, pushing rod sleeve lower surface has and the possibility of food materials dieback, cause the food materials upper end cannot be smoothly to center, if pressing push-rod assembly down, have and force the food materials of inclination (misalignment center, upper end) to be cut by force, cause the possibility of cutting effect extreme difference.Simultaneously as misalignment center, food materials upper end, the slotting tool that push rod is arranged and/or spine, by the insertion food materials upper end of relative eccentric, cause slotting tool and/or spine to insert the poor effect of solid food materials, it may appear that and skid and cause completing the possibility of stock removal action.

As shown in Figure 6, food materials are 301 input in feeding cylinder, is inserted in feeding cylinder 301 by push-rod assembly above food materials.Food materials lower end and the cutwork part contact at Cutting tool 400 center, under the effect of himself gravity and push-rod assembly pushing force, move along its recessed coned face heart wherein, the center of food materials lower end aligned Cutting tool 400.Meanwhile, as it is shown in fig. 7, food materials upper end and the conical surface contact of pushing rod sleeve 200 lower surface indent, under push-rod assembly pushes down on the effect of pressure, food materials move along the coned face heart wherein of its indent, taper seat center, food materials lower end aligned pushing rod sleeve 200 lower end.So, food materials just realize and the centering of Cutting tool 400, it is ensured that food materials and the perpendicularity of Cutting tool 400, it is ensured that the optimum efficiency of the central rotation cutting of food materials.

As shown in Figure 8 and Figure 9, continue to push against push rod 100, push rod 100 overcomes the elastic force of back-moving spring 100D to move down, push rod bottom 100A can stretch out in the holding tank 200C of pushing rod sleeve 200 bottom, the slotting tool 100C arranged on it and/or spine 100B inserts food materials and is fixed, and under the pressure of push-rod assembly, move down, promote food materials to feed, food materials are cut by the cutting tool on Cutting tool 400.

Push rod 100 is descending to be completed after it sets stroke, and as shown in Figure 10-1 and Figure 10-2, push rod 100 is clasped by buckle 102 with pushing rod sleeve 200, and holding is the most static.

After food materials process, taking out push-rod assembly, as shown in figure 11, slotting tool 100C and/or spine 100B that push rod bottom 100A is arranged take out feeding cylinder 301 together with food materials defective material F.As shown in Figure 12-1 and Figure 12-2, release button 101 on pressing push rod 100, buckle 102 moves axially to push rod 100 under the driving of release button 101, exit the draw-in groove 104B arranged on push rod upper shield 104, push rod 100 moves up reset under the elastic force effect of its back-moving spring 100D, as shown in figure 13, in push rod bottom 100A is fully retracted the holding tank 200C of pushing rod sleeve 200 bottom.Now, as shown in figure 14, food materials defective material F is withstood by pushing rod sleeve 200 lower surface and departs from push rod bottom 100A, i.e. completes taking-up and the disengaging work of food materials defective material.

Continue to put into food materials in feeding cylinder 301, repeat above-mentioned action and can carry out the continuous cutting of food materials.

This utility model not only can solve food materials to be difficult to be directed at Cutting tool center, be difficult to ensure that the problem vertical with Cutting tool 400, meanwhile, also solves the taking-up problem of food materials defective material.Ensure that the optimum efficiency of the central rotation cutting of food materials, simplify user operation process.

In above-described embodiment, feeding cylinder is designed to undaform, i.e. it is similar to sinusoidal wave form, distance L2 between projector distance L1 and two crests between crest and trough there is no need to contact with the essential shape of waveform, i.e. waveform may be designed to meet the random waveform of above-mentioned requirements, likens square wave, triangular wave, trapezoidal wave etc..

In the implementation case, the effect arranging push rod upper shield is the assembling of auxiliary push-rod and pushing rod sleeve, the assembling catching groove that simultaneously arranges, draw-in groove, and be used for buckle and back-moving spring, release button and back-moving spring thereof are installed, it it is only a design of the implementation case, but conceiving according to this utility model, other equivalent structure that can design realizes identity function.

Release button in the implementation case and release structure thereof, be only a design of this utility model design, can use other equivalent constructions.

It should be appreciated that above example is only in order to illustrate the technical solution of the utility model, being not intended to limit, its part details and motion can be changed by respective design and realize with other form.It will be understood by those skilled in the art that the technical scheme described in above-described embodiment can be modified, or wherein portion of techniques feature is carried out equivalent；And these amendments and replacement, all should belong to the protection domain of this utility model claims.

Claims (12)

1. the shredding slicing device of the central rotation cutting of energy automatic centering, including push-rod assembly, with the processing lid (300) of feeding cylinder (301) and Cutting tool (400), described processing lid (300) covers described Cutting tool (400), described push-rod assembly includes pushing rod sleeve (200) and the push rod (100) being arranged in this pushing rod sleeve, it is characterised in that:

Described pushing rod sleeve (200) is towards the end face indent of food materials, and the left and right of this female parts is mutually symmetrical with relative to its longitudinal center's cutting plane, and this female parts tapers into inside from outward；Described Cutting tool (400) is towards the one side indent of food materials, and the left and right of this female parts is mutually symmetrical with relative to its longitudinal center's cutting plane, tapers into inside from outward；The female parts of described pushing rod sleeve (200) is coaxial with the female parts of Cutting tool (400), the female parts of the two is respectively used to guide food materials two ends to be cut the center of the two female parts, it is achieved food materials to be cut and the automatic centering of described Cutting tool (400)；

The cross section of inboard wall of described feeding cylinder (301) is undaform, correspondingly, the external wall cross-section of described pushing rod sleeve (200) is undaform, and the crest of described feeding cylinder (301) inwall and trough are respectively used to the trough with described pushing rod sleeve (200) outer wall and crest laminating.

Shredding slicing device the most according to claim 1, it is characterised in that: the height (L1) between adjacent peaks and the trough of described feeding cylinder undaform inwall is at least 1mm.

Shredding slicing device the most according to claim 1, it is characterised in that: the female parts of described pushing rod sleeve (200) is frusto-conical face.

Shredding slicing device the most according to claim 3, it is characterised in that: the cone angle scope of the indent frusto-conical face of described pushing rod sleeve (200) is 50 degree to 120 degree.

Shredding slicing device the most according to claim 1, it is characterised in that: the female parts of described Cutting tool (400) is frusto-conical face.

Shredding slicing device the most according to claim 5, it is characterised in that: the cone angle scope of the indent frusto-conical face of described Cutting tool (400) is 90 degree to 150 degree.

Shredding slicing device the most according to claim 1, it is characterized in that: push rod bottom (100A) is the thin-walled that several mandrel from which radially extends, correspondingly, the lower end of described pushing rod sleeve (200), it is provided with the holding tank (200C) that with pushing rod sleeve (200) central axial outside dissipate suitable with described push rod bottom (100A), to accommodate described push rod bottom (100A).

Shredding slicing device the most according to claim 7, it is characterised in that: the end face of described push rod bottom (100A) is provided with the slotting tool (100C) for being inserted and fixed food materials and/or spine (100B).

Shredding slicing device the most according to claim 1, it is characterised in that: it is provided with the back-moving spring (100D) for being resetted by push rod between described push rod (100) and pushing rod sleeve (200).

Shredding slicing device the most according to claim 1, it is characterized in that: also include push rod lid (103) and push rod upper shield (104), it is provided with buckle or draw-in groove in described push rod lid (103), correspondingly, it is provided with the draw-in groove suitable with the buckle that sets in described push rod lid (103) or draw-in groove or buckle in described push rod upper shield (104), snaps into draw-in groove and push rod (100) is fixed with pushing rod sleeve (200).

11. shredding slicing devices according to claim 10, it is characterised in that: it is provided with in described push rod (100) for releasing release button (101) fixing between push rod (100) and pushing rod sleeve (200).

12. shredding slicing devices according to claim 11, it is characterized in that: in described push rod lid (103), be provided with buckle (102), correspondingly, being provided with the draw-in groove (104B) suitable with described buckle in described push rod upper shield (104), described release button (101) acts on described buckle (102) and makes this buckle indentation push rod lid (103) to release fixing between push rod (100) and pushing rod sleeve (200).