CN205111918U - Full automatic vegetable cutter - Google Patents

Abstract

The utility model discloses a full automatic vegetable cutter, wherein, carousel mechanism includes carousel apron, carousel, carousel bottom plate and camshaft bearing, and the carousel is installed between carousel apron and carousel bottom plate, and the camshaft bearing is fixed on the carousel eccentricly, and the carousel bottom plate has the external screw thread, shredding mechanism lies in between carousel mechanism and the slice institue, fixes on silk sword box at a plurality of thread epaxial swoves in a location and a sword box, location axle including arranging, and silk sword box bottom portion exposes open just all sword bottoms, first motor passes through carousel and camshaft bearing and drives feeding mechanism reciprocal linear motion in the casing, installs in epaxial driving gear of second motor output and lifting gear meshing, and lifting gear has the internal thread with the matching the external screw of carousel bottom plate, and every lever and a silk sword bottom contact, third motor make partial lever or whole lever perk through the cam and promote a corresponding sword and stretch out a sword box. The utility model discloses can relax and accomplish the section fast, shred and dice.

Description

Full automatic vegetable cutter

Technical field

The utility model is relevant with vegetable-cutting equipment for kitchen use, specifically belong to a kind of and can cut into slices, chopping, the full automatic vegetable cutter of dicing.

Background technology

In daily life, all need food materials to process before dish-cooking, wherein topmost step is cut the dish exactly, and more commonly rhizome vegetable or block vegetable is cut into sheet, strip, fourth shape or thread.The operating pressure of present people is large, and the time that general evening comes off duty is more late, and supper garnishes occupy a large amount of time, and the vegetables of especially chopping need the time more grown.

At present, family, restaurant's cutting food materials are generally completed by artificial or vegetable-chopper, practical and convenient and comparatively general although wherein manually cut the dish, the shortcoming that but but existence is wasted time and energy, security is lower, vegetable-chopper is then stable, not by external interference, not only can save labour, and reduce costs and raise the efficiency.

Existing vegetable-chopper is mainly divided into big-and-middle-sized, small-sized and simple type, wherein big-and-middle-sized vegetable-chopper is bulky, it mostly is centrifugal, by the vegetables High Rotation Speed by needing processing, utilize centrifugal force to make vegetables be close to blade to process, be used in fruits and vegetables industry, food service industry, dehydrated vegetables factory, quick-frozen food secondary operations enterprise, but cannot use in family cooking.The small kraut cutter being applicable to family and restaurant mostly is orthoscopic or rotary, namely by straight reciprocating motion or the circumference rotary motion Cut vegetables of cutter, but this vegetable-chopper operation inconvenience, in the process of cutting the dish, often need user to press food materials (with hand or pass through pressing bar) smooth and easyly could complete cutting, therefore cannot realize real full-automatic, still need labor intensive.In addition, the usual edge of a knife of shredder (as wiping board) of simple type exposes or the part edge of a knife exposes, and user's often uncomfortable safeguard procedures of taking in operation, to protect both hands, therefore very easily cause scratch.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of full automatic vegetable cutter, fast food materials can be processed into sheet or thread or fourth shape when not having manual operation, and easy accessibility, is easy to cleaning.

For solving the problems of the technologies described above, the full automatic vegetable cutter that the utility model provides, comprise housing, feed mechanism, slicing mechanism, rotating disk mechanism and section and regulate drive transmission device, its middle shell has a discharging opening;

Described rotating disk mechanism comprises rotating disk cover plate, rotating disk, bottom plate of turntable and camshaft bearing, and described rotating disk cover plate has the through hole holding rotating disk; Described rotating disk to be arranged between rotating disk cover plate and bottom plate of turntable and to be positioned at the through hole of rotating disk cover plate, and described camshaft bearing to be fixedly mounted on prejudicially on rotating disk and to coordinate with feed mechanism; Described bottom plate of turntable is formed with the convex axle stretched out downwards, and this convex axle has external screw thread; Described rotating disk rotates under the driving of one first motor, and the camshaft bearing on it drives feed mechanism linear reciprocating motion in housing;

Described slicing mechanism comprises flat cutter peace knife support, and described flat cutter end face and rotating disk end face have a difference in height;

Described section regulates drive transmission device to comprise lifter wheel, driving gear and the second motor, the output shaft that described driving gear is arranged on the second motor engages with lifter wheel, described lifter wheel has the internal thread coordinated with the external screw thread of bottom plate of turntable, described lifter wheel rotates under the driving of the second motor, and the bottom plate of turntable coordinated with lifter wheel drives rotating disk to move up and down.

In said structure, described vegetable-chopper also comprises width-adjustable filament cutting mechanism, the 3rd motor and chopping transmission mechanism between rotating disk mechanism and slicing mechanism; Described width-adjustable filament cutting mechanism comprises some cuttves and silk cutter box, and described silk blade row is listed on a locating shaft, and the two ends of described locating shaft are fixed in a cutter box, and bottom described silk cutter box, the open and bottom of all silk cuttves is exposed; Described chopping transmission mechanism comprises a cam and some levers, and described each lever contacts with the bottom of one piece of silk cutter, described 3rd motor by cam make segment lever or all lever tilt and promote corresponding silk cutter and stretch out a cutter box.Or vegetable-chopper also comprises the chopping trigger structure between rotating disk mechanism and slicing mechanism, described chopping trigger structure comprises a cutter box and chopping plate, and wherein chopping plate is fixedly mounted on a cutter box top; Described chopping plate is formed with some blades projected upwards, and the spacing between described blade is equal.

Further, described vegetable-chopper also comprises the mechanism that dices, described in the mechanism that dices be positioned at below slicing mechanism and outside discharging opening, it dicing knife comprising dicing knife box and be arranged on rotationally in dicing knife box, described dicing knife is driven by the first motor.

Wherein, described first motor is connected with rotating disk by a bent axle, described bent axle comprises the U-shaped connecting portion of bent axle axle sleeve, the convex axle of bent axle and connection bent axle axle sleeve and the convex axle of bent axle, and wherein bent axle axle sleeve is fixedly connected with the first motor output shaft, and the convex axle of bent axle is fixedly connected with rotating disk; Described bent axle coordinates with a connecting rod, and this connecting rod is formed with a connecting rod chute, and the connecting portion of described bent axle is in this connecting rod chute and promote connecting rod linear reciprocating motion; The two ends of described connecting rod are respectively equipped with a synchronous belt drive mechanism, the end of described connecting rod is fixedly connected with the Timing Belt of the synchronous belt drive mechanism of respective side respectively, and be all fixedly connected with one first gear near the belt wheel of the mechanism that dices in two synchronous belt drive mechanisms, the rotating shaft of described dicing knife is installed with one the 3rd gear, described 3rd gear and the first gear respectively with one second gears meshing, this second gear is arranged in a cutter box.

Wherein, described lifter wheel is arranged between a pressing plate and a main stor(e)y plate, its inwall is formed with an inner convex platform, and described pressing plate is formed with the outer lug boss engaged with this inner convex platform, and the convex axle of described bent axle is fixedly connected with rotating disk through main stor(e)y plate, lifter wheel, pressing plate successively.

In said structure, the output shaft of described 3rd motor is fixedly connected with a worm screw, and the worm gear coordinated with this worm screw is fixedly mounted on the main shaft of cam; Described cam is divided into full convex domain, complete recessed region, some concavo-convex spaced apart areas, and each concavo-convex spaced apart areas has some projections and the spacing of adjacent projections is identical, and the spacing difference in each concavo-convex spaced apart areas between projection.

Wherein, described silk cutter is divided into first cutter and second cutter, and described first cutter and second cutter are staggered and stagger before and after blade.

Further, described width-adjustable filament cutting mechanism also comprises folding spring and silk cutter lid plate, described silk cutter lid plate is formed with the silk cutter via hole stretched out for first cutter and second cutter, described folding spring is arranged between a cutter lid plate and first cutter, second cutter, it is rolled over by some segmentations, and spring top is connected to be formed, have between adjacent segmentation folding spring pass for first cutter or second cutter cross cutter gap, the bottom end of each segmentation folding spring is formed with the breach that restriction first cutter or second cutter move.

Further, the part that described rotating disk cover plate is positioned at above width-adjustable filament cutting mechanism was formed with tool bore, and described tool bore is corresponding with the silk cutter via hole on silk cutter lid plate excessively.

Usefulness of the present utility model is:

1) the utility model realizes the upper-lower position adjustment of rotating disk by the second motor, the lifter wheel matched and bottom plate of turntable, and then can regulate the difference in height between flat cutter and rotating disk, easily food materials is processed into the sheet of different-thickness;

2) what the utility model can regulate moving up and down of a cutter and silk cutter by the cooperation of cam, lever and folding spring stretches out quantity and position, easily food materials can be processed into the thread of different in width in conjunction with slicing mechanism;

3) the utility model drives dicing knife reciprocating rotary by the first motor, crankshaft connecting rod system, synchronous belt drive mechanism and gear mechanism, easily food materials is processed into fourth shape;

4) the utility model utilizes the elastic band of clockwork spring to move cable traction pressing plate and pushes down food materials all the time, like this in whole process of cutting the dish without the need to manually pressing food materials, save manpower, easily achieve the reciprocating motion of feed mechanism simultaneously, realize cutting without the need to the reciprocating motion by cutter.

Accompanying drawing explanation

Fig. 1 is schematic perspective view of the present utility model;

Fig. 2 is sectional view of the present utility model;

Fig. 3 is the decomposing schematic representation of feed mechanism in the utility model;

Fig. 4 is the structural representation of the utility model center platen;

Fig. 5 is the decomposing schematic representation of clockwork in the utility model;

Fig. 6 is the structural representation of the utility model Chinese food cylinder;

Fig. 7 is the schematical top view of the utility model Chinese food tube end plate;

Fig. 8 is the bottom schematic view of the utility model Chinese food tube end plate;

Fig. 9 is the decomposing schematic representation of the utility model turntable mechanism;

Figure 10 is the assembling schematic diagram of the utility model turntable mechanism;

Figure 11 is the side view of the utility model turntable mechanism;

Figure 12 is the A-A sectional view of Figure 11;

Figure 13 is the structural representation of slicing mechanism in the utility model;

Figure 14 is the decomposing schematic representation of width-adjustable filament cutting mechanism in the utility model;

Figure 15 is the close-up schematic view of Figure 14;

Figure 16 is the structural representation of silk cutter in the utility model;

Figure 17 is the decomposing schematic representation of chopping trigger structure and the mechanism that dices in the utility model;

Figure 18 is the combination schematic diagram of chopping trigger structure and the mechanism that dices in the utility model;

Figure 19 is the transmission schematic diagram of mechanism of dicing in the utility model;

Figure 20 is the structural representation of dicing knife in the utility model;

Figure 21 is the decomposing schematic representation to rotating disk mechanism, drive transmission device that the mechanism that dices is relevant in the utility model;

Figure 22 is the schematic perspective view to rotating disk mechanism, drive transmission device that the mechanism that dices is relevant in the utility model;

Figure 23 is the partial schematic diagram of drive transmission device relevant to rotating disk mechanism in the utility model;

Figure 24 is the schematical top view of drive transmission device relevant to the mechanism that dices in the utility model;

Figure 25 is the bottom schematic view of drive transmission device relevant to the mechanism that dices in the utility model;

Figure 26 is the decomposing schematic representation of drive transmission device relevant to width-adjustable filament cutting mechanism in the utility model;

Figure 27 is the structural representation of lever in Figure 26;

Figure 28 is the assembling schematic diagram of drive transmission device relevant to width-adjustable filament cutting mechanism in the utility model;

Figure 29 is the structural representation of Figure 26 cam;

Figure 30 to Figure 32 is chopping process schematic of the present utility model;

Figure 33 is schematic diagram of dicing of the present utility model.

Wherein description of reference numerals is as follows:

1 is shell; 15 is food basket;

2 is feed mechanism; 21 is dish cylinder pressing plate; 211 is handle; 212 is rope perforation; 213 is pressing plate guide block; 22 is clockwork; 221 is clockwork spring shell; 2211 is clockwork spring housing boss; 2212 is stud openings groove; 222 is centre circle; 2221 is the outer groove of centre circle; 223 is clockwork spring; 224 is clockwork spring cover plate; 225 is rope; 23 is dish cylinder; 231 is guide groove; 232 is U-type groove; 24 is handle; 25 is dish tube end plate; 251 is pin-and-hole; 252 is dish cylinder installing hole; 253 is slide unit; 254 cross groove for rope; 255 is slide block mounting groove; 256 is lower edge; 26 is camshaft bearing slide block; 261 is slide block chute;

3 is rotating disk mechanism; 31 is rotating disk cover plate; 311 was tool bore; 32 is rotating disk; 321 is spline; 33 is bottom plate of turntable; 331 is external screw thread; 34 is camshaft bearing;

4 is inner casing; 41 is internal chute;

5 is slicing mechanism; 51 is flat cutter; 52 is flat knife support;

6 is width-adjustable filament cutting mechanism; 61 is silk cutter lid plate; 62 is folding spring; 621 was cutter gap; 622 is breach; 63 is first cutter; 64 is second cutter; 65 is silk cutter circular arc; 66 is silk cutter chuck; 67 is locating shaft; 68 is silk cutter box; 69 is chopping plate;

610 is dicing knife box; 611 is dicing knife; 612 is the 3rd gear; 613 is the second gear;

71 is pressing plate; 72 is bearing; 73 is lifter wheel; 731 is internal thread; 74 is driving gear; 75 is main stor(e)y plate; 76 is the second motor; 77 is bent axle; 771 is the convex axle of bent axle; 772 is bent axle axle sleeve; 78 is connecting rod; 781 is connecting rod chute; 782 is Timing Belt fixed head; 79 is the first gear; 710 is belt wheel; 711 is Timing Belt; 712 is lower plywood;

81 is lever; 811 is lever tail end; 812 is lever fillet; 82 is the first motor; 83 is base; 84 is cam; 841 is complete recessed region; 842 is full convex domain; 843 is projection; 844 is recess; 845 is cam main shaft; 85 is worm gear; 86 is worm screw; 87 is the 3rd motor; 88 is lever shaft.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, the utility model is described in further detail.

The full automatic vegetable cutter that the utility model provides, comprises housing, feed mechanism 2, rotating disk mechanism 3, drive transmission device, slicing mechanism 5.In addition, can also install for the width-adjustable filament cutting mechanism 6 of chopping or chopping trigger structure and the mechanism that dices for dicing.

Housing comprises shell 1 and inner casing 4, and this shell 1 and inner casing 4 have corresponding discharging opening.Inner casing 4 is arranged in shell 1 and is formed with an inner chamber, and as shown in Figure 1 and Figure 2, feed mechanism 2 is arranged in this inner chamber, and the both sides inwall of inner casing 4 is formed with internal chute 41 respectively, and the inner chamber of inner casing 4 is realized closing by the top cover of shell 1.

Feed mechanism 2 comprises dish cylinder 23, dish cylinder pressing plate 21, clockwork 22, dish tube end plate 25, camshaft bearing slide block 26, and as shown in Figure 3, the both sides of its Chinese food tube end plate 25 are formed with the slide unit 253 be slidably matched with internal chute 41 respectively, as shown in Figure 7.

Clockwork 22 comprises clockwork spring shell 221, centre circle 222, clockwork spring 223, clockwork spring cover plate 224 and rope 225, as shown in Figure 5.Clockwork spring shell 221 is arranged on the outer wall of dish cylinder 23, in the present embodiment, for the ease of installing, the both sides of clockwork spring shell 221 are formed with clockwork spring housing boss 2211, accordingly, the outer wall of dish cylinder 23 is formed with the U-type groove 232 slipped into for clockwork spring housing boss 2211, as shown in Figure 6.Certainly, clockwork spring shell also can adopt other mounting means, as being arranged on by screw on dish cylinder, being easy to those skilled in the art realize, not repeating them here.

As shown in Figure 5, clockwork spring shell 221 has the groove of an annular, has a column in this groove, and centre circle 222 embeds and is arranged in the groove of clockwork spring shell 221, and column is through centre circle 222.Centre circle 222 has an inner groovy and an outer groove 2221, and the center of rope 225 is fixed on the outer groove 2221 of centre circle 222, and 223, clockwork spring is arranged in the inner groovy of centre circle 222.The outer ring of clockwork spring 223 is fixed in the inner groove wall of centre circle 222, the inner of clockwork spring 223 is fixed on the column of clockwork spring shell 221, in the present embodiment, the column of clockwork spring shell 221 is formed with stud openings groove 2212, the inner being arranged in clockwork spring center is fixed on stud openings groove 2212.Centre circle 222 and clockwork spring 223 are enclosed in the groove of clockwork spring shell 221 by clockwork spring cover plate 224, and are fixedly connected with by the column of securing member with clockwork spring shell 221.

Dish cylinder 23 upper and lower opening and be fixedly mounted on dish cylinder installing hole 252 place of dish tube end plate 25, as shown in Fig. 3, Fig. 6 and Fig. 7, the both sides of dish cylinder 23 are formed with the guide groove 231 of downward-extension respectively, accordingly, the both sides of dish cylinder pressing plate 21 are formed with pressing plate guide block 213 respectively, as shown in Figure 4, this pressing plate guide block 213 stretches in guide groove 231, and moves under the guiding of guide groove 231.Meanwhile, each pressing plate guide block 213 has a rope perforation 212.In addition, the top of dish cylinder pressing plate 21 is formed with handle 211, extracts dish cylinder pressing plate 21 place food materials to be processed for user in dish cylinder 23.

As shown in Figure 7, dish tube end plate 25 has the opening corresponding with the under shed of dish cylinder 23, and dish tube end plate 25 is formed with the slide block mounting groove 255 loaded for camshaft bearing slide block 26 near one end of rotating disk mechanism 3, as shown in Figure 8.As shown in Figure 3, the bottom of camshaft bearing slide block 26 is formed with slide block chute 261, and top is provided with three fixture erection columns, and the height of slide block mounting groove 255 is greater than the height of bottom surface bottom fixture erection column of camshaft bearing slide block 26.Accordingly, dish tube end plate 25 is formed with three pin-and-holes 251, as shown in Figure 7, in two pin-and-holes 251 in outside and corresponding fixture erection column, screw is installed and on fixture erection column, cover has spring, camshaft bearing slide block 26 and dish tube end plate 25 are fixed by two pin-and-holes 251 in screw and outside and corresponding fixture erection column, in middle pin-and-hole 251 and middle fixture erection column, a handle 24 is installed, when dismantling feed mechanism 2, to pull-up handle 24, camshaft bearing slide block 26 moves up thus makes the camshaft bearing 34 being arranged in slide block chute 261 depart from slide block chute 261 in slide block mounting groove 255, so just feed mechanism 2 and rotating disk mechanism 3 are separated.

As shown in Figure 7, Figure 8, two side slid platforms 253 of dish tube end plate 25 are formed with rope respectively and cross groove 254, rope 225 two ends in clockwork 22 pass respectively from clockwork spring shell 221, cross groove 254 along the lower of dish tube end plate 25 and finally to insert in the rope perforation 212 being fixed on dish cylinder pressing plate 21 along 256 by rope.

Rotating disk mechanism 3 comprises rotating disk cover plate 31, rotating disk 32, bottom plate of turntable 33 and camshaft bearing 34, as shown in Figure 9, wherein rotating disk cover plate 31 has the through hole holding rotating disk 32, bottom plate of turntable 33 is formed with the groove of inserting for rotating disk 32, rotating disk 32 is inlaid between rotating disk cover plate 31 and bottom plate of turntable 33 and the end face of rotating disk 32 flushes with the end face of rotating disk cover plate 31, and rotating disk cover plate 31 is fixedly connected with bottom plate of turntable 33.Camshaft bearing 34 is fixedly mounted on prejudicially on rotating disk 32 and with the slide block chute 261 of feed mechanism 2 and coordinates, and bottom plate of turntable 33 is formed with the convex axle stretched out downwards, and this convex axle has external screw thread 331, as shown in Figure 10, Figure 11.In the present embodiment, rotating disk cover plate 31 part be positioned at outside bottom plate of turntable 33 is formed with some tool bores 311 excessively, and this is crossed tool bore 311 and stretches out for making the blade for chopping in the silk cutter in width-adjustable filament cutting mechanism 6 or chopping trigger structure.

Slicing mechanism 5 comprises the peaceful knife support 52 of flat cutter 51, and as shown in figure 13, flat cutter 51 is arranged on flat knife support 52 and the two is fixedly mounted on the discharge outlet of shell 1 by securing member, there is a difference in height between the end face of described flat cutter 51 and the end face of rotating disk 32.

For the width-adjustable filament cutting mechanism 6 of chopping or chopping trigger structure between rotating disk mechanism 3 and slicing mechanism 5, and be in the beneath portions that rotating disk cover plate 31 had tool bore 311, describe in detail respectively below.

As shown in Figure 14, Figure 15, width-adjustable filament cutting mechanism 6 comprises a cutter lid plate 61,68, two groups, silk cutter box folding spring 62, some first cuttves 63, some second cuttves 64.Silk cutter box 68 inside is formed with the cutter groove of inserting for first cutter 63 and second cutter 64, and bottom silk cutter box 68, opening makes the bottom of all silk cuttves expose.First cutter 63 and second cutter 64 to be staggered on a locating shaft 67 and to stagger before and after blade, and as shown in figure 15, the two ends of this locating shaft 67 are fixed on a cutter box 68.Described first cutter 63 is identical with first cutter 64 shape, and bottom is silk cutter circular arc 65, and has a cutter chuck 66, as shown in figure 16.Silk cutter lid plate 61 is formed with the silk cutter via hole stretched out for first cutter 63 and second cutter 64, in the present embodiment, silk cutter via hole is divided into two row, one row stretch out for the blade of first cutter 63, blade of another row confession second cutter 64 stretches out, and described silk cutter via hole is corresponding with the mistake tool bore 311 on rotating disk cover plate 31.Two groups of folding springs 62 are connected by some segmentation folding spring tops respectively and form, wherein one group of folding spring is arranged between a cutter lid plate 61 and first cutter 63, another group folding spring is arranged between a cutter lid plate 61 and second cutter 64, there is between adjacent segmentation folding spring the cutter gap 621 excessively passed for first cutter 63 or second cutter 64, the bottom end of each segmentation folding spring is formed with breach 622, and this breach 622 matches with silk cutter chuck 66 to limit the height that first cutter 63 or second cutter 64 move.

As shown in Figure 17, Figure 18, chopping trigger structure comprises a cutter box 68 and chopping plate 69, and wherein chopping plate 69 is fixedly mounted on cutter box 68 top; Described chopping plate 69 is formed with some blades projected upwards, and the spacing between described blade is equal.Certainly, a vegetable-chopper can configure multiple chopping plate, and the blade spacing of each chopping plate is not identical, and user can need to change different chopping plates according to actual chopping.

The described mechanism that dices is positioned at below slicing mechanism 5 and outside discharging opening, and it comprises dicing knife box 610 and is arranged on the dicing knife 611 in dicing knife box 610 rotationally, and dicing knife 611 has a rotating shaft, as shown in figure 20, this rotating shaft is provided with some blades.

First motor 82 is arranged on base 83, and as shown in figure 26, it is connected with rotating disk 32 by a bent axle 77.Described bent axle 77 comprises bent axle axle sleeve 772, the convex axle of bent axle 771 and connects the U-shaped connecting portion of bent axle axle sleeve 772 and the convex axle of bent axle 771, as shown in Figure 24, Figure 25, wherein bent axle axle sleeve 772 is fixedly connected with the output shaft of the first motor 82, the convex axle 771 of bent axle is fixedly connected with rotating disk 32, in the present embodiment, the bottom of rotating disk 32 is formed with spline 321, as shown in figure 12.When first motor 82 operates, bent axle 77 rotates thereupon, thus drives rotating disk 32 and camshaft bearing 34 to rotate, and because camshaft bearing 34 is arranged in the slide block chute 261 of feed mechanism 2, therefore drives feed mechanism 2 linear reciprocating motion in inner casing 4.

As shown in Figure 24, Figure 25, bent axle 77 coordinates with a connecting rod 78, and this connecting rod 78 is formed with a connecting rod chute 781, the U-shaped connecting portion of described bent axle 77 is in this connecting rod chute 781, when the first motor 82 operates, bent axle 77 rotates, thus promotes connecting rod 78 linear reciprocating motion.

As Figure 22, Figure 24, shown in Figure 25, the two ends of connecting rod 78 are respectively equipped with a synchronous belt drive mechanism, and the end of connecting rod 78 is formed with Timing Belt fixed head 782 respectively, each Timing Belt fixed head 782 is fixedly connected with the Timing Belt 711 of the synchronous belt drive mechanism of respective side respectively, all be fixedly connected with one first gear 79 near the belt wheel 710 of the mechanism that dices in two synchronous belt drive mechanisms, this first gear 79 engages with one second gear 613, this second gear 613 engages with one the 3rd gear 612, described 3rd gear 612 the lowest point is arranged in the rotating shaft of dicing knife 611, as shown in figure 19, second gear 613 is then arranged on the locating shaft 67 of width-adjustable filament cutting mechanism 6 rotationally, or be arranged in the silk cutter box 68 of chopping trigger structure rotationally, as described in Figure 18.When connecting rod 78 linear reciprocating motion, Timing Belt 711 is with movable belt pulley 710 to rotate, thus drives dicing knife 711 to rotate by intermeshing first gear 79, second gear 613 and the 3rd gear 612.Belt wheel 710 is installed in rotation on lower plywood 712, as shown in Figure 21, Figure 22.

As shown in Figure 21, Figure 22, Figure 23, the output shaft that driving gear 74 is arranged on the second motor 76 engages with lifter wheel 73, and described lifter wheel 73 has the internal thread 731 coordinated with the external screw thread 331 of bottom plate of turntable 33.Second motor 76 is stepper motor, can regulate difference in height between rotating disk 32 end face and flat cutter 51 end face by controlling the second motor.

Lifter wheel 73 is arranged between a pressing plate 71 and a main stor(e)y plate 75, its inwall is formed with an inner convex platform, described pressing plate 71 is formed with the outer lug boss engaged with this inner convex platform, the convex axle 771 of described bent axle successively through main stor(e)y plate 75, lifter wheel 73, pressing plate 71, and is provided with bearing 72 between the convex axle 771 of bent axle and pressing plate 71.Lifter wheel 73 is pressed on main stor(e)y plate 75 by pressing plate 71, second motor 76 is fixedly mounted on main stor(e)y plate 75, and lifter wheel 73 passes through threaded engagement with the bottom plate of turntable 33 in rotating disk mechanism 3, therefore under the drive of the second motor 76 and driving gear 74, lifter wheel 73 rotates, and then drive rotating disk mechanism 3 to move up and down, because flat cutter 51 maintains static, the difference in height therefore between the end face of rotating disk 32 and the end face of flat cutter 51 realizes changing, thus changes the thickness of section.

As shown in Figure 26, Figure 28, when using width-adjustable filament cutting mechanism, chopping transmission mechanism comprises the 3rd motor 87, cam 84 and some levers 81.3rd motor 87 is arranged on base 83, and its output shaft is fixedly connected with a worm screw 86, and the worm gear 85 coordinated with this worm screw 86 is fixedly mounted on the main shaft 845 of cam 84.As shown in figure 29, cam 84 is divided into full convex domain 842, complete recessed region 841, some concavo-convex spaced apart areas, each concavo-convex spaced apart areas has some projections 843, it is recess 84 between projection 843, and the spacing of adjacent projection 843 is identical, the spacing in each concavo-convex spaced apart areas between projection is different.Lever 81 as shown in figure 27, has a scallop and a lever tail end 811, and the bottom of scallop is lever fillet 812, the lever tail end 811 of each lever 81 and the silk cutter circular arc 65 of a cutter tangent.All levers 81 are arranged on a lever shaft 88, and this lever shaft 88 is arranged on base 83.3rd motor 87 is stepper motor, cam 84 can be made to turn to full convex domain 842 or complete recessed region 841 or any one concavo-convex spaced apart areas by controlling the 3rd motor 87.Certainly, other means can also be adopted to detect the turned position of cam, as sensor, do not repeat in detail at this.

3rd motor 87 operates, and worm-and-wheel gear band moving cam 84 rotates.When the 3rd motor 87 running make cam 84 turn to full convex domain 842 be positioned at below lever 81 time, when full convex domain 842 is tangent with the lever fillet 812 on lever 81, all levers 81 are boosted, now all silk cuttves are all pushed up and stretch out from the silk cutter via hole of silk cutter lid plate 61, and silk cutter chuck 66 snaps in the breach 622 of folding spring 62 bottom end and compresses folding spring 62.When the 3rd motor 87 running makes the complete recessed region 841 of cam 84 be positioned at below lever 81, when complete recessed region 841 is tangent with the lever fillet 812 of lever 81, all levers 81 fall, and now all silk cuttves are pressed downward and are back to original place under the restoring force effect of folding spring 62.When the 3rd motor 87 running makes certain concavo-convex spaced apart areas of cam 84 be positioned at below lever 81, projection 843 in concavo-convex spaced apart areas is tangent with the lever fillet 812 of the lever 81 of correspondence position, these levers 81 are boosted and then are also upwards boosted by the silk cutter of position, and rolling over corresponding a bit of of spring 62 will be compressed simultaneously.User can according to tobacco cut width need change cam 84 and be positioned at region below lever 81, when full convex domain 842 is positioned at below lever 81, all silk cuttves all rise, now can cut out the thinnest silk of width, and when complete recessed region 841 is positioned at below lever 81, all silk cuttves all can not rise, and now food materials are cut into pieces.

Operationally, food materials are placed in dish cylinder 25 this vegetable-chopper, and under the elastic force effect of clockwork spring 223, rope 225 remains that dish cylinder pressing plate 21 compresses food materials.

First motor 82 works, and band dynamic crankshaft 77 and rotating disk 32 rotate, and camshaft bearing 34 drives camshaft bearing slide block 26, dish tube end plate 25 and dish cylinder 23 to move to flat cutter 51 position, as shown in figure 30.When using width-adjustable filament cutting mechanism to carry out chopping, 3rd motor 87 works, band moving cam 84 rotates, segment lever or all lever are boosted makes corresponding silk cutter stretch out, when food materials move to width-adjustable filament cutting mechanism 6 place, the silk cutter be extended is cut into thread, simultaneously owing to there is a difference in height between flat cutter 51 and rotating disk 32, food materials are cut a thickness part identical with difference in height, as shown in figure 31.When food materials are completely through flat cutter 51, the thread food materials be cut fall in food basket 15 through discharging opening, as shown in figure 32.

When needs are diced, the first motor 82 drives dicing knife reciprocating rotation by bent axle 77, connecting rod 78, synchronous belt drive mechanism and the first gear 79, second gear 613, second gear 612, will be cut into the diced shape of thread food materials, as shown in figure 33.

The utility model is utilized the second motor and is realized the lifting of rotating disk mechanism by the lifter wheel of threaded engagement and bottom plate of turntable, thus easily changes the difference in height between flat cutter end face and rotating disk end face, can meet the processing needs of different-thickness.

The utility model is rotated by the 3rd motor, worm-and-wheel gear band moving cam, utilizes the distribution of cam projection part to change by the quantity of silk cutter boosted, thus meets food materials and be processed into the thread needs of different in width.

In addition, the reciprocating motion of the utility model except utilizing the first motor to realize feed mechanism, also drives the rotation of dicing knife, easily can realize the needs that food materials are diced in conjunction with crankshaft connecting rod system, synchronous belt drive mechanism and gear structure.

Pressing plate in clockwork and dish cylinder combines by the utility model, pressing plate and clockwork spring is connected by rope, utilize the elastic band of clockwork spring to move cable traction pressing plate and push down food materials all the time, like this in whole process of cutting the dish without the need to manually pressing food materials, save manpower, meanwhile, due to the design of this structure, easily achieve the reciprocating motion of feed mechanism, realize cutting without the need to the reciprocating motion by cutter.

Be described in detail the utility model by specific embodiment above, described embodiment is only preferred embodiment of the present utility model, and it not limits the utility model.When not departing from the utility model principle, the equivalent replacement that those skilled in the art makes and improvement, all should be considered as in the technology category protected at the utility model.

Claims (10)

1. a full automatic vegetable cutter, is characterized in that, comprise housing, feed mechanism, slicing mechanism, rotating disk mechanism and section and regulate drive transmission device, its middle shell has a discharging opening;

Described rotating disk mechanism comprises rotating disk cover plate, rotating disk, bottom plate of turntable and camshaft bearing, and described rotating disk cover plate has the through hole holding rotating disk; Described rotating disk to be arranged between rotating disk cover plate and bottom plate of turntable and to be positioned at the through hole of rotating disk cover plate, and described camshaft bearing to be fixedly mounted on prejudicially on rotating disk and to coordinate with feed mechanism; Described bottom plate of turntable is formed with the convex axle stretched out downwards, and this convex axle has external screw thread; Described rotating disk rotates under the driving of one first motor, and the camshaft bearing on it drives feed mechanism linear reciprocating motion in housing;

Described slicing mechanism comprises flat cutter peace knife support, and described flat cutter end face and rotating disk end face have a difference in height;

Described section regulates drive transmission device to comprise lifter wheel, driving gear and the second motor, the output shaft that described driving gear is arranged on the second motor engages with lifter wheel, described lifter wheel has the internal thread coordinated with the external screw thread of bottom plate of turntable, described lifter wheel rotates under the driving of the second motor, and the bottom plate of turntable coordinated with lifter wheel drives rotating disk to move up and down.

2. full automatic vegetable cutter according to claim 1, is characterized in that, also comprises the width-adjustable filament cutting mechanism between rotating disk mechanism and slicing mechanism, the 3rd motor and chopping transmission mechanism; Described width-adjustable filament cutting mechanism comprises some cuttves and silk cutter box, and described silk blade row is listed on a locating shaft, and the two ends of described locating shaft are fixed in a cutter box, and bottom described silk cutter box, the open and bottom of all silk cuttves is exposed; Described chopping transmission mechanism comprises a cam and some levers, and described each lever contacts with the bottom of one piece of silk cutter, described 3rd motor by cam make segment lever or all lever tilt and promote corresponding silk cutter and stretch out a cutter box.

3. full automatic vegetable cutter according to claim 1, is characterized in that, also comprises the chopping trigger structure between rotating disk mechanism and slicing mechanism, and described chopping trigger structure comprises a cutter box and chopping plate, and wherein chopping plate is fixedly mounted on a cutter box top; Described chopping plate is formed with some blades projected upwards, and the spacing between described blade is equal.

4. the full automatic vegetable cutter according to Claims 2 or 3, it is characterized in that, also comprise the mechanism that dices, described in the mechanism that dices be positioned at below slicing mechanism and outside discharging opening, it dicing knife comprising dicing knife box and be arranged on rotationally in dicing knife box, described dicing knife is driven by the first motor.

5. full automatic vegetable cutter according to claim 4, it is characterized in that, described first motor is connected with rotating disk by a bent axle, described bent axle comprises the U-shaped connecting portion of bent axle axle sleeve, the convex axle of bent axle and connection bent axle axle sleeve and the convex axle of bent axle, wherein bent axle axle sleeve is fixedly connected with the first motor output shaft, and the convex axle of bent axle is fixedly connected with rotating disk; Described bent axle coordinates with a connecting rod, and this connecting rod is formed with a connecting rod chute, and the U-shaped connecting portion of described bent axle is in this connecting rod chute and promote connecting rod linear reciprocating motion; The two ends of described connecting rod are respectively equipped with a synchronous belt drive mechanism, the end of described connecting rod is fixedly connected with the Timing Belt of the synchronous belt drive mechanism of respective side respectively, and be all fixedly connected with the first gear near the synchronous pulley of the mechanism that dices in two synchronous belt drive mechanisms, the rotating shaft of described dicing knife is installed with the 3rd gear, described 3rd gear and the first gear respectively with one second gears meshing, this second gear is arranged in a cutter box.

6. full automatic vegetable cutter according to claim 5, it is characterized in that, described lifter wheel is arranged between a pressing plate and a main stor(e)y plate, its inwall is formed with an inner convex platform, described pressing plate is formed with the outer lug boss engaged with this inner convex platform, and the convex axle of described bent axle is fixedly connected with rotating disk through main stor(e)y plate, lifter wheel, pressing plate successively.

7. full automatic vegetable cutter according to claim 2, is characterized in that, the output shaft of described 3rd motor is fixedly connected with a worm screw, and the worm gear coordinated with this worm screw is fixedly mounted on the main shaft of cam; Described cam is divided into full convex domain, complete recessed region, some concavo-convex spaced apart areas, and each concavo-convex spaced apart areas has some projections and the spacing of adjacent projections is identical, and the spacing difference in each concavo-convex spaced apart areas between projection.

8. full automatic vegetable cutter according to claim 2, is characterized in that, described silk cutter is divided into first cutter and second cutter, and described first cutter and second cutter are staggered and stagger before and after blade.

9. full automatic vegetable cutter according to claim 8, it is characterized in that, described width-adjustable filament cutting mechanism also comprises folding spring and silk cutter lid plate, described silk cutter lid plate is formed with the silk cutter via hole stretched out for first cutter and second cutter, described folding spring is arranged between a cutter lid plate and first cutter, second cutter, it is rolled over by some segmentations, and spring top is connected to be formed, have between adjacent segmentation folding spring pass for first cutter or second cutter cross cutter gap, the bottom end of each segmentation folding spring is formed with the breach that restriction first cutter or second cutter move.

10. full automatic vegetable cutter according to claim 9, is characterized in that, the part that described rotating disk cover plate is positioned at above width-adjustable filament cutting mechanism was formed with tool bore, and described tool bore is corresponding with the silk cutter via hole on silk cutter lid plate excessively.