CN205682290U - Fabric shear and use the steamed bread of corn forming machine of this device - Google Patents

Abstract

The utility model discloses a kind of fabric shear and use the steamed bread of corn forming machine of this device, its drip irrigation device is: include being sequentially connected with for fabric is processed into entering face conveyer device, entering face conveyer device and be connected with in turn to cut off fabric and be pressed into the pre-molding device of the hemispherical recess of hat shape and bottom, the apparatus for shaping that the steamed bread of corn after molding carries out shaping processing and the row's dish device being collected by the steamed bread of corn after shaping in advance of strip；Dough is rubbed and is pressed into plane band and carries out flattening and formed the strip fabric of convenient shearing by entering face conveyer device, make fabric be socketed on mould by pre-molding device and tentatively become the steamed bread of corn model of hat shape, by apparatus for shaping, it is shaped mellow and full process again and obtains final steamed bread of corn profile, it is being collected by row's dish device, reach automatically to be made by fabric the steamed bread of corn of molding, improve its production efficiency, effectively use manpower and material resources sparingly, it is achieved the effect of automatic batch production.

Description

Fabric shear and use the steamed bread of corn forming machine of this device

Technical field

This utility model relates to food processing equipment technical field, more specifically, it relates to a kind of fabric shear And use the steamed bread of corn forming machine of this device.

Background technology

When production and processing steamed bread of corn, put to pony press by the fabric that oodle maker is pressed, after beaing through Shaping roller is pressed into the strip of required thickness dough sheet, then by cutting knife or nips off strip fabric to it by hand Carry out required segment, then in round shape by soft it mediated or bottom is emptied, be allowed to block fabric shape Become in hat shape and the basic blank of steamed bread of corn of lower hollow；At present when strip fabric is carried out severing, mostly by using Manually carrying out cutting or nip off, the labor intensity of worker is increased by such mode, causes its work efficiency significantly to drop simultaneously Low.

Utility model content

The deficiency existed for prior art, the purpose of this utility model one is that providing a kind of improves production efficiency, The fabric shear used manpower and material resources sparingly.

For achieving the above object, this utility model provides following technical scheme:

A kind of fabric shear, including the module for severing fabric, base logical in placement module and middle part And the driving ring being slidably connected with module, described module is that triangle bulk is arranged, and sets on the triangular facet driving ring to contact Being equipped with strip groove, some described modules are spliced to form regular polygon, and this regular polygon deviates from the end face center driving ring Hemispherical recess is arranged, and described driving ring is provided with the litter for driving module to slide in base, described litter In being arranged at strip groove and it is slidably connected with strip groove, described base is provided with for driving ring to drive module at base Interior spacing stopper slot when rotating, when module is inconsistent with stopper slot described regular polygon center be formed with base in the middle part of phase The opening of connection, described driving ring passes through to be used for controlling to drive ring to rotate and realizes regular polygon opening and closing by driving that strip fabric cuts off Dynamic assembly connects, and makes module carry out back rotation in being in base and be slidably connected with base.

Being arranged such, when in module is in stopper slot and with stopper slot clamping, litter is in the end of strip groove, this Time multiple modules be arranged in stopper slot in the shape of a spiral, and middle part formed opening, this be opened on driving ring and base in the middle part of The coaxial passage for the conveying of strip fabric is formed between middle through hole；When driving ring to rotate in module when driving assembly to control, Make to be arranged at and drive the litter on ring to be in the strip groove in module Nei slip, promote modules to synchronize to be in by litter Sliding in base, now the other end of litter gradually phase strip groove slides, and the opening that multiple modules are formed is gradually reduced, module Progressively disengage stopper slot, the strip fabric of opening part now contact with the drift angle in triangle block-wise module and with opening reduction and Extrude with by module, when litter is in the end of the strip groove other end, now modules be spliced to form one the most changeable Body, its central shaft is the habitat of modules drift angle, and the end face towards charging aperture direction completely encloses, and the most variants is another simultaneously The center of end face forms a hemispheric depression, and by bar shaped fabric severing, completes severing operation；Drive this dress therewith Putting control and drive ring reversion, make module by sliding in driving ring phase stopper slot, now modules is exhibition towards stopper slot direction Opening shape sliding, form helical form and stopper slot clamping, middle part forms opening, continues severing operation next time；It is right to alleviate greatly The labor intensity of worker, also improves its work efficiency simultaneously.

Arrange further: described driving assembly includes driving cylinder, universal driving shaft and being arranged at the pivot pin driven on ring, institute Stating and be provided with for the groove movable for pivot pin when driving ring to rotate on universal driving shaft, described cylinder is fixing with base to be connected, described Universal driving shaft one end is fixing with the piston of cylinder to be connected, and the other end is rotationally connected with pivot pin.

It is arranged such, when driving air cylinder driven universal driving shaft to move back and forth together, drives the axis on ring at universal driving shaft Sliding in groove, universal driving shaft promotes to drive ring to rotate on mould, now drives the bar shaped in module of the litter on ring Slide in groove, it is achieved control the positive gengon that multiple module spliced is connected into and launch in the shape of a spiral in base and close, complete sanction The operation of broken strip shape fabric.

Arrange further: be provided with on described module and the end face of base contacts for guiding and spacing module is at base The bar shaped limited block of interior slip, described base is provided with and the strip-shaped clamp groove of bar shaped limited block phase clamping, and described module is passed through Bar shaped limited block slides in strip-shaped clamp groove and base is slidably connected, and promotes to be slidably connected between adjacent block.

Be arranged such, by several moulds be spliced into positive gengon drive Component driver its launch time, mould passes through Its bar shaped limited block slides in the strip groove of base, makes module play one when launching in the shape of a spiral by bar shaped limited block Fixed guiding is slided and spacing effect, improves and drives assembly to promote the unitary rotation effect being spliced.

Arrange further: on the contact surface between adjacent described module, be provided with ventilative groove, described ventilative groove and mould Two triangle end face connections of block.

Be arranged such, module is slided when, be provided by ventilative groove, adjacent when can less slide between mould Viscous force is glued in the absorption of block, improves the mutual slip driven between Component driver module.

Arrange further: being provided with the protective cover for protecting module on described base, described protective cover is removable with base Unload connection.

It is arranged such, spliced generally in persistently rotating and the operation of phase mutual friction, by arranging use on base Protective cover in protection module, it is possible to reduce some impurity fall between module, improves serviceability and the use of module Life-span.

Another object of the present utility model is that providing a kind of improves production efficiency, it is achieved the steamed bread of corn of automated production becomes Type machine.

A kind of steamed bread of corn forming machine, including entering face conveyer device for what fabric was processed into strip, described in enter face conveying Device is connected with in turn to cut off fabric and is pressed into the pre-molding device of the hemispherical recess of hat shape and bottom in advance, by after molding The steamed bread of corn apparatus for shaping that carries out shaping processing and row's dish device that the steamed bread of corn after shaping is collected, described precompressed Shaped device includes frame and is arranged in frame fabric shear described above, lower mold assemblies and for driving lower mold Assembly by lower mold assemblies towards the reciprocating cam pack of fabric shear, between described lower mold mould and fabric shear Being formed with by cavity compressing for fabric, described frame being provided with for fabric being passed through lower mold assemblies and fabric shearing dress Charging aperture between putting.

It is arranged such, dough is rubbed and is pressed into the fabric of plane band and is positioned over into face conveyer device, through entering face conveying dress Putting and be delivered to pre-molding device after being processed into the noodles of strip, the fabric of strip enters being carried out by the charging aperture in frame The machine-shaping that row is preliminary；The opening and closing of its fabric shear are controlled, to strip by the assembly that drives in pre-molding device Fabric carries out severing, and when fabric shear gradually closes, bar shaped fabric is the most gradually extruded by fabric shear, the most convex Wheel assembly drives lower mold assemblies to be moved towards fabric shear by lower mold assemblies, when fabric shear is of completely closed, and strip Fabric by severing one trifle just for make a steamed bread of corn amount, now lower mold assemblies continue rise with by the fabric of severing When extruding and be positioned at peak, between lower mold assemblies and fabric shear, internus is in the annular compartment of umbrella shape, now face Material is just extruded full whole chamber and forms a hat shape and the preliminary steamed bread of corn model of the hemispherical recess in bottom；Again by Cam pack controls lower mold assemblies self-return, completes the operation of one-step forming at the beginning of a steamed bread of corn is processed automatically；Pass through precompressed again Shaped device is delivered to apparatus for shaping, and the steamed bread of corn after molding is carried out shaping processing so that it is surface is rounder and more smooth and uniformly divides Cloth, improves the aesthetics of steamed bread of corn, and finally the row's of being delivered to dish device is collected when steamed bread of corn is by the conveyer belt of row's dish device Time upper, being arranged in steamed bread of corn in catch tray；Realize from preliminary plane fabric through entering face conveyer device, pre-molding Device, apparatus for shaping and row's dish device, will be carried out at row Pan Zhuanzhichu after soft for fabric being positioned on the conveyer device of face End plate just, is greatly saved manpower and materials, it is achieved batch production processing, is greatly improved its production efficiency, it is achieved nest nest Head automatic moulding operation and collecting process.

Arrange further: described lower mold assemblies includes in hat shape and the mould of setting is emptied, for delivery mold in bottom First conveyer belt and the push rod being connected with cam pack, described push rod is provided with empty out with mold bottom and matches Boss, described first conveyer belt is divided into left conveyer belt and right conveyer belt, described mould be positioned over left conveyer belt and right conveyer belt it Between formed passage on, described cam pack by drive arrangement between left conveyer belt and right conveyer belt push rod by mould be socketed Move, when described mould is at the highest notch and between fabric shear on the boss of push rod and towards fabric shear direction Form described cavity.

Be arranged such, when cam pack drive push rod move towards fabric shear direction time, push rod from left conveyer belt with Passage between right conveyer belt up moves, and the mould between left conveyer belt and right conveyer belt is socketed on the boss of push rod simultaneously On, make mould move towards fabric shear direction together with push rod, when the opening of fabric shear closes and by strip During fabric severing, the fabric after mould and severing is inconsistent, it is ensured that the fabric having no progeny drops, and therewith mould continuation near and Extruding, when cam pack drives push rod to be at the highest notch, is now formed between mould and fabric shear and is similar to umbrella Annular compartment, the fabric after severing is full of this chamber, i.e. forms the basic model of steamed bread of corn, makes fabric cover uniformly in mould On the outer surface of tool, complete preliminary molding procedure；Cam pack drives push rod back to move, when push rod is repositioned to left conveying therewith Time below band and right conveyer belt, mould is blocked by left conveyer belt and right conveyer belt and helps be formed between left conveyer belt and right conveyer belt Passage on, with left conveyer belt and right tape transport to next process, now fabric shear forms opening, and opening Center and push rod be on same straight line；The most left conveyer belt and right tape transport next one mould, push rod continues towards account Mould is socketed on boss by the motion of mesh assembly direction, repeats above-mentioned operation and completes molding procedure.

Arrange further: described apparatus for shaping includes bracing frame and the trim panel being arranged on bracing frame, shaping conveying Band, the second conveyer belt of band steamed bread of corn after carry molding and for driving shaping conveyer belt and the second conveyer belt transmission Driving motor, is formed between described trim panel, shaping conveyer belt and the second conveyer belt and leads to for the shaping of steamed bread of corn shaping after molding Road, described shaping conveyer belt makes the steamed bread of corn after shaping be in shaping channel by driving motor to rotate, and with trim panel and Shaping conveyer belt rotates contact.

Being arranged such, just the steamed bread of corn of tool shape is delivered on the second conveyer belt and along with second is defeated through pre-molding device Sending band to move, the steamed bread of corn entering shaping channel rotates under the effect of shaping conveyer belt, steamed bread of corn in rotation process Conical side surface rotates under the common effect of shaping conveyer belt and trim panel and rubs simultaneously；Horizontal stroke due to shaping channel Cross section is fixing and is normal size, and the pattern through the steamed bread of corn of this shaping channel shaping is unified, the difference in size opposite sex is low, and face Material is evenly distributed, it is adaptable to large-scale production, the most effectively uses manpower and material resources sparingly simultaneously.

Arrange further: described row's dish device includes body and is arranged on body steamed bread of corn after carrying shaping 3rd conveyer belt, for promoting the push pedal of steamed bread of corn on the 3rd conveyer belt, for driving push pedal driving cylinder, the use of push pedal campaign The slide plate that slides in catch tray during in collecting the catch tray of steamed bread of corn, for push pedal being pushed steamed bread of corn and be arranged at the 3rd It is used for controlling apparatus for shaping on conveyer belt and is delivered to the sensor of the spacing of two adjacent steamed breads of corn on the 3rd conveyer belt, described cunning Plate is obliquely installed in the side of the 3rd conveyer belt, and described 3rd conveyer belt opposite side is connected with push pedal, and slide plate and push pedal are to it It is arranged in the 3rd conveyer belt both sides.

It is arranged such, the distance between steamed bread of corn after shaped device shaping is adjacent, defeated by being arranged at the 3rd Send and be delivered to the sensor of the spacing of two adjacent steamed breads of corn on the 3rd conveyer belt for controlling apparatus for shaping on band, make to be delivered to On 3rd conveyer belt, the distance between adjacent steamed bread of corn is equal, when neat being arranged in the 3rd conveyer belt and push away of several steamed breads of corn During the front of plate, push pedal drives air cylinder driven push pedal towards the direction promotion that steamed bread of corn arrange, the steamed bread of corn several arranged Promote simultaneously, then make steamed bread of corn slide in neat catch tray by slide plate, defeated by be arranged at below catch tray the most again Roller is sent to drive catch tray to deviate from conveying one end, direction distance of slide plate, it is simple to steamed bread of corn row's plate in catch tray next time, real Now automatically collect and the function of row's plate.

Arrange further: described in enter face conveyer device and include into face conveyer belt, pre-pressure surface roller, lower conveyer belt, thin wheels Part, volume face roll assembly and guidance set, described in enter face conveyer belt and be connected with the pre-pressure surface roller of pressing fabric, described pre-pressure surface roller Lower section be provided with for carrying the lower conveyer belt that pressing is expected below, on described lower conveyer belt be used for pressing fabric is thinned The wheel assembly that thins connect, described in thin wheel assembly and be connected with for fabric being rolled into the volume face roll assembly of strip, described under defeated Send and carry the guidance set with the charging aperture for strip fabric guiding being delivered in frame to be connected.

It is arranged such, after dough being rubbed pressure or being processed into plane band, is sent on the conveyer belt of face by being positioned over Pre-pressure surface roller carries out first processing and bonding, and the plane band fabric after processing is sent to lower conveyer belt, by lower conveyer belt It is delivered to thin at wheel assembly and fabric enters to thin bonding again through thinning wheel assembly, also make the distribution of plane band fabric all simultaneously Even, plane band fabric is rolled into by the volume face roll assembly being arranged on lower conveyer belt through thinning uniform plane band fabric Be suitable for processing steamed bread of corn molding strip fabric, then by wire assembly be delivered to the charging aperture of frame in pre-molding device go out into The preliminary molding procedure of row precompressed, it is achieved production process automatically, improves the yield of its work efficiency and product greatly.

By using technique scheme, hinge structure of the present invention compares: by dough is rubbed be pressed into plane Band, carries out flattening and being formed the strip fabric of convenient shearing, then makes fabric by pre-molding device by entering face conveyer device It is socketed on mould the steamed bread of corn model tentatively being become hat shape, then by apparatus for shaping, it is shaped mellow and full process and obtains Whole steamed bread of corn profile, is being collected by row's dish device, reaches automatically to be supported by fabric the steamed bread of corn of molding；There is raising Its production efficiency, effectively uses manpower and material resources sparingly, and the pattern of steamed bread of corn is unified, the difference in size opposite sex is little, it is to avoid manual operation, green nothing Pollute, further ensure that the safety and sanitation of food produce, realize the effect of automatic batch production simultaneously.

Accompanying drawing explanation

Fig. 1 is steamed bread of corn shaping machine structure schematic diagram；

Fig. 2 is the structural representation into face conveyer device and partial sectional view；

Fig. 3 is the enlarged drawing in Fig. 2 at A；

Fig. 4 is pre-molding apparatus structure schematic diagram and partial sectional view；

Fig. 5 is the partial exploded view at upper die component；

Structural representation when Fig. 6 is to drive Component driver mould to launch；

Structural representation when Fig. 7 is to drive Component driver mould Guan Bi；

Partial sectional view when Fig. 8 is that in pre-molding device, push rod is in lowermost end；

Partial sectional view when Fig. 9 is that in pre-molding device, push rod is at the highest notch；

Figure 10 is the enlarged drawing in Fig. 9 at B；

Figure 11 is the structural representation of apparatus for shaping；

Figure 12 is the structural representation of row's dish device.

In figure: 1, enter face conveyer device；2, pre-molding device；3, apparatus for shaping；4, row's dish device；11, face conveying is entered Band；12, pre-pressure surface roller；13, lower conveyer belt；14, wheel assembly is thinned；141, roller is thinned；142, wheel support is thinned；15, volume face roller Assembly；151, volume face roller；152, volume face motor；16, guidance set；161, guide roller；162, guide roller support；21, frame； 22, upper die component；220, protective cover；221, module；222, base；223, ring is driven；224, strip groove；225, litter； 226, stopper slot；227, bar shaped limited block；228, ventilative groove；23, mould；24, lower mold assemblies；241, the first conveyer belt； 2411, left conveyer belt；2412, right conveyer belt；2413, passage；242, conveying motor；243, push rod；244, limiting plate；245, lead To plate；246, device is controlled；2461, the first gate；2462, the second gate；2463, first cylinder is driven；2464, second drive Cylinder；2465, gate support；25, assembly is driven；251, cylinder is driven；252, universal driving shaft；253, pivot pin；254, groove；26、 Cam pack；261, connecting rod；262, cam；263, boss；27, cavity；28, depression；29, charging aperture；31, bracing frame；32、 Trim panel；33, shaping conveyer belt；34, the second conveyer belt；35, driving motor；36, shaping channel；37, shaping support；38, adjust Joint screw rod；39, leg；41, body；42, the 3rd conveyer belt；43, push pedal；44, push pedal drives cylinder；45, catch tray；46, sliding Plate；47, sensor；48, conveying roller.

Detailed description of the invention

To fabric shear and the steamed bread of corn forming machine of this device is used to be described further referring to figs. 1 through Figure 12.

Embodiment 1: as it is shown in figure 1, a kind of steamed bread of corn forming machine, including be sequentially connected with for fabric is processed into strip Enter face conveyer device 1, fabric is cut off to be pressed into the pre-molding device 2 of the hemispherical recess of hat shape and bottom in advance, will become Apparatus for shaping 3 that steamed bread of corn after type carries out shaping processing and row's dish device 4 that the steamed bread of corn after shaping is collected.

As shown in Figures 2 and 3, wherein, enter face conveyer device 1 to include into face conveyer belt 11, pre-pressure surface roller 12, lower conveyer belt 13, wheel assembly 14, volume face roll assembly 15 and guidance set 16 are thinned；Enter the pre-pressure surface roller 12 of face conveyer belt 11 and pressing fabric Connecting, pre-pressure surface roller 12 is made up of two live-rollers, and two rotation directions rotating rolling are contrary；Arrange below pre-pressure surface roller 12 Have for carrying the lower conveyer belt 13 that pressing is expected below, on lower conveyer belt 13 with thin wheel for carry out pressing fabric thinning Assembly 14 connects；Thin wheel assembly 14 thinned roller 141 by several and thin wheel support 142 and form, some thin roller 141 in Circle-shaped being arranged in thins on wheel support 142 and is rotationally connected with thinning wheel support 142, thins wheel assembly 14 and lower conveyer belt 13 Between leave for plane fabric conveying gap, thin wheel support 142 by driving and make to thin roller 141 on tabular fabric Rolling carries out thinning operation；Thin wheel assembly 14 to be connected with for fabric is rolled into the volume face roll assembly 15 of strip, volume face roller group Part 15 is by volume face roller 151 and drives the volume face motor 152 of volume face roller 151 to form, and volume face roller 151 and lower conveyer belt 13 are spaced cloth Put, and at a certain angle with the conveying direction shape of lower conveyer belt 13, motor, by driving volume face roller 151 to rotate, makes plane The fabric of band is rolled into strip, to coordinate the basic profile of steamed bread of corn molding；As it is shown in figure 1, on lower conveyer belt 13 and for inciting somebody to action Strip fabric guides the guidance set 16 of the charging aperture 29 being delivered in frame 21 and connects, and guidance set 16 is by guide roller 161 He Guide roller 161 support forms, and some guide rollers 161 are linearly arranged and are rotationally connected with guide roller support 162, guide roller 161 Support is connected with lower conveyer belt 13, and strip fabric is delivered to pre-molding device 2.

As shown in Figure 4, pre-molding device 2 include frame 21 and be arranged in frame 21 and be sequentially arranged up and down for The upper die component 22 of severing strip fabric, in hat shape and under bottom empties the mould 23 of setting and coordinate with upper die component 22 Membrane module 24, also have and drive assembly 25 and for driving the cam set of lower mold assemblies 24 for drive upper die component 22 simultaneously Part 26；Upper die component 22 is provided with towards the center of lower mold assemblies 24 and matches with mould 23 and the depression of hemispherical setting 28, mould 23 is arranged between upper die component 22 and lower mold assemblies 24 and and the cavity of formation steamed bread of corn model between 28 that caves in 27, the driving assembly 25 that strip fabric cuts off is connected by upper die component 22 with for driving upper die component 22 to control its opening and closing, under Membrane module 24 is by being socketed on mould 23 on lower mold assemblies 24 with driving lower mold assemblies 24 and moving towards upper die component 22 direction Cam pack 26 connect, frame 21 is provided with for fabric being passed through the charging between upper die component 22 and lower mold assemblies 24 Mouth 29.

As shown in Figure 4 and Figure 5, fabric shear is upper die component 22, including for severing and pressing fabric molding Module 221, base 222 logical in placement module 221 and middle part and the driving ring 223 that is slidably connected with module 221, Module 221 is arranged in triangle bulk, and is provided with strip groove 224, such as Fig. 6 and Fig. 7 on the triangular facet driving ring 223 to contact Shown in, some described modules 221 are spliced to form positive gengon, and in the program, preferably nine are spliced into positive nonagon, and this positive nine Limit body is described hemispherical depression shape towards the end face center of lower mold assemblies 24, forms described cavity between depression 28 and mould 23 27, drive and be provided with the litter 225 for driving module 221 to slide in base 222 on ring 223, litter 225 is arranged at bar shaped In groove 224 and it is slidably connected with strip groove 224, base 222 is provided with for driving ring 223 to drive module 221 end of at Stopper slot 226 spacing when rotating in seat 222, when module 221 is inconsistent with stopper slot 226, described positive gengon center is formed The opening having and be connected in the middle part of base 222；It is provided with for guiding on the end face that module 221 contacts with base 222 simultaneously And the bar shaped limited block 227 that spacing module 221 is slided in base 222, be provided with bar shaped limited block 227 is at interval of two Individual layout one has in the module 221 of bar shaped limited block 227, and nine modules 221 has three to have bar shaped limited block 227, with Time base 222 on be provided with for guide bar shaped limited block 227 slide and with the strip-shaped clamp groove of bar shaped limited block 227 phase clamping, Strip-shaped clamp groove length is longer than bar shaped limited block 227 length, module 221 is slided in strip-shaped clamp groove by bar shaped limited block 227 and Base 222 is slidably connected, and promotes to be slidably connected between adjacent block 221；On contact surface between adjacent described module 221 Being provided with ventilative groove 228, described ventilative groove 228 connects with two triangle end faces of module 221；Base 222 is provided with For protecting the protective cover 220 of module 221, protective cover 220 is removably connected by bolt with base 222.

As shown in Figure 4 and Figure 6, assembly 25 is driven to include driving cylinder 251, universal driving shaft 252 and being arranged at driving ring 223 On pivot pin 253, universal driving shaft 252 is provided with and drives ring 223 when rotating for the groove 254 for pivot pin 253 activity, cylinder with Base 222 is fixing to be connected, and universal driving shaft 252 one end is connected with cylinder, and the other end is rotationally connected with pivot pin 253, drives ring 223 to pass through The universal driving shaft 252 in assembly 25 is driven to be in module 221 back rotation and be slidably connected with module 221.

As shown in Figure 4 and Figure 5, lower mold assemblies 24 includes being arranged in frame 21 the first conveyer belt for delivery mold 23 241, the conveying motor 242 driving the first conveyer belt 241 and the push rod 243 being connected with cam pack 26；First conveyer belt 241 are divided into left conveyer belt 2411 and right conveyer belt 2412, formed and place mould between left conveyer belt 2411 and right conveyer belt 2412 The passage 2413 of 23, mould 23 two ends respectively with left conveyer belt 2411 and have conveyer belt to contact；Frame 21 is provided with for Limiting the limiting plate 244 of the first conveyer belt 241 mold 23 position, limiting plate 244 is arranged in the first conveyer belt 241 both sides and puts down Row is arranged at above the first conveyer belt 241, and limiting plate 244 is provided with for being directed to by mould 23 towards mould 23 feed end simultaneously Guide plate 245 in the middle part of first conveyer belt 241, guide plate 245 is that arc-shaped is arranged towards the first conveyer belt 241 two ends；First It is disposed with on conveyer belt 241 for controlling the control device of the spacing of two adjacent molds 23 on the first conveyer belt 241 246, control device 246 include being arranged at be disposed with for controlling on the first conveyer belt 241 on the first conveyer belt 241 biphase First gate 2461 and the second gate 2462 of the spacing of adjacent mould 23, the first gate 2461 and the second gate 2462 connect respectively It is connected to for driving the first gate 2461 and the second gate 2462 alternately towards the first driving gas of the first conveyer belt 241 direction motion Cylinder 2463 and second drives cylinder 2464, and first drives cylinder 2463 and second to drive cylinder 2464 all by being arranged at frame 21 On gate support 2465 be connected with frame 21.

As it is shown in figure 5, cam pack 26 includes cam 262 that connecting rod 261 and frame 21 be rotationally connected and is arranged at For the driving motor driving cam 262 to rotate in frame 21, cam 262 drives push rod 243 module upward by connecting rod 261 Part 22 moves back and forth；Being provided with on push rod 243 and empty the boss 263 of portion's phase fit bottom mould 23, cam pack 26 passes through Drive push rod 243 to be socketed on the boss 263 of push rod 243 by mould 23 and transport towards upper die component 22 direction；As shown in Figure 10, mould Tool 23 is when being at the highest notch and is spliced between the depression 28 of positive gengon module 221 lower end and forms described cavity 27.

As shown in figures 1 and 11, apparatus for shaping 3 includes bracing frame 31 and the trim panel 32 being arranged on bracing frame 31, whole Shape conveyer belt 33, after carry molding steamed bread of corn the second conveyer belt 34 and for driving shaping conveyer belt 33 and second defeated Send the driving motor 35 with 34 transmissions；Trim panel 32, formed for molding postfovea between shaping conveyer belt 33 and the second conveyer belt 34 The shaping channel 36 of steamed bread of corn shaping, shaping conveyer belt 33 is transmitted towards the second conveyer belt 34 direction by driving motor 35, and with the Two conveyer belt 34 conveying directions are consistent, make the steamed bread of corn after shaping rotate in being in shaping channel 36 and with trim panel 32 and shaping Conveyer belt 33 rotates contact；Trim panel 32 is connected with bracing frame 31 by shaping support 37, and shaping support 37 is provided with regulation The adjusting screw rod 38 of angle between trim panel 32 and the second conveyer belt 34, the bottom of bracing frame 31 is provided with for passive Leg 39, each leg 39 is provided with and connects for the adjusting screw rod 38 being easy to regulate bracing frame 31 height, with preferably with first Conveyer belt 241 and row's dish device 4 match.

Such as Fig. 1 and as shown in figure 12, row's dish device 4 includes body 41 and is arranged on body 41 after carrying shaping 3rd conveyer belt 42 of steamed bread of corn, for promoting the push pedal 43 of steamed bread of corn on the 3rd conveyer belt 42, being used for driving push pedal 43 to move Push pedal drive cylinder 44, for collecting the catch tray 45 of steamed bread of corn, for push pedal 43 is pushed steamed bread of corn time slide into collection Slide plate 46 in dish 45 and be arranged on the 3rd conveyer belt 42 and be delivered on the 3rd conveyer belt 42 two for controlling apparatus for shaping 3 The sensor 47 of the spacing of adjacent steamed bread of corn, makes to be delivered on the 3rd conveyer belt 42 distance between adjacent steamed bread of corn equal； Slide plate 46 is obliquely installed in the side of the 3rd conveyer belt 42, and the 3rd conveyer belt 42 opposite side is connected with push pedal 43, and slide plate 46 with Push pedal 43 is arranged in the 3rd conveyer belt 42 both sides to it；When several steamed breads of corn neat be arranged in the 3rd conveyer belt 42 and push pedal 43 front time, push pedal drives cylinder 44 to drive push pedal 43 towards the promotion of direction that steamed bread of corn arrange, the nest several arranged A steamed bread of corn promotes simultaneously, then makes steamed bread of corn slide in neat catch tray 45, the most again by being arranged at catch tray by slide plate 46 Conveying roller 48 below 45 drives catch tray 45 to deviate from conveying one end, direction distance of slide plate 46, it is simple to steamed bread of corn is being received next time Row's plate in catch basin 45.

Operation principle: be pressed into plane band by being rubbed by dough, carries out flattening and the side of being formed by entering face conveyer device 1 Just the strip fabric sheared, then control mould 23 in its upper die component 22 by the assembly 25 that drives in pre-molding device 2 Opening and closing, carry out severing to strip fabric；As shown in Fig. 8 to Fig. 9, when splicing mould 23 and gradually closing, bar shaped fabric is the most gradually Being extruded by module 221, now cam pack 26 drives push rod 243 to be moved towards upper die component 22 by lower mold assemblies 24, when upper module When part 22 is of completely closed, the fabric of strip is by severing, as shown in Figure 10, and now push rod 243 and be socketed on the mould on push rod 243 Tool 23 continuation rises and extrudes and when being positioned at peak with by the fabric of severing, the lower end of mould 23 and the positive nine limit bodies being spliced to form Between the hemispherical depression of bottom, internus is in the annular compartment of umbrella shape, and now fabric is just extruded full whole chamber shape Become the preliminary steamed bread of corn model of the hemispherical recess of a hat shape and bottom；Push rod 243 is controlled again automatic by cam pack 26 Return, makes fabric be bonded on mould 23 and falls between left conveyer belt 2411 and right conveyer belt 2412, completing a steamed bread of corn Automatically the operation of processing just one-step forming；As shown in figure 11, then by the first conveyer belt 241 it is delivered to apparatus for shaping 3, after molding Steamed bread of corn carry out shaping processing, make the steamed bread of corn surface on its mould 23 round and smooth by shaping channel 36 and be uniformly distributed place Reason, is finally collected by the second conveyer belt 34 row of being delivered to dish device 4, as shown in figure 12, when steamed bread of corn is by row's dish device 4 Conveyer belt on time, the distance made to be delivered on the 3rd conveyer belt 42 between adjacent steamed bread of corn by its sensor 47 is equal, when When what several steamed breads of corn were neat is arranged in the front of the 3rd conveyer belt 42 and push pedal 43, push pedal drives cylinder 44 to drive push pedal 43 Direction towards steamed bread of corn arrangement promotes, and the steamed bread of corn several arranged promotes simultaneously, then makes steamed bread of corn sliding by slide plate 46 To neat catch tray 45, catch tray 45 is driven to deviate from slide plate by being arranged at the conveying roller 48 below catch tray 45 the most again Conveying one end, direction distance of 46, it is simple to steamed bread of corn row's plate in catch tray 45 next time, it is achieved automatically collect and arrange plate Function；As it is shown in figure 1, pass through from preliminary plane fabric through entering face conveyer device 1, pre-molding device 2, apparatus for shaping 3 and row's dish device 4, end plate will be carried out after soft for fabric being positioned on face conveyer device 1 at row's dish device 4 by pre- Pressing molding device 2 makes fabric be socketed on the steamed bread of corn model tentatively being become hat shape on mould 23, then is entered it by apparatus for shaping 3 The mellow and full process of row molding obtains final steamed bread of corn profile, is being collected by row's dish device 4, reaches automatically to be made by fabric The steamed bread of corn of molding.

Embodiment 2: a kind of steamed bread of corn moulding process, including above-mentioned steamed bread of corn forming machine, step is as follows:

1) dough-making powder: by agitated to flour, water and flavoring agent dough of making, then dough is rubbed be pressed into plane band.

2) precompressed: the fabric of plane band is put into entering on face conveyer device 1, be delivered to precompressed by entering face conveyer belt 11 Face roller 12 carries out preliminary precompressed and flattens, and enters by the wheel assembly 14 that thins on lower conveyer belt 13 being delivered to lower conveyer belt 13 One step thin pressing, finally by volume face roll assembly 15, the fabric of plane band is rolled into strip fabric, by its lower conveying With the guidance set 16 on 13, strip fabric is delivered to pre-molding device 2.

3) first one-step forming: strip fabric upper die component 22 in pre-molding device 2 and lower mold assemblies 24 match, Strip fabric is cut into segment and makes fabric be placed on the surface of mould 23 by pressure assembly down and the cavity 27 that pressure assembly is formed down Form the basic profile of preliminary steamed bread of corn of cone shape, then be delivered to apparatus for shaping 3 by the first conveyer belt 241.

4) shaping: by the steamed bread of corn of first one-step forming through by the second conveyer belt 34, shaping conveyer belt 33 and trim panel 32 it Between the shaping channel 36 that formed steamed bread of corn outer surface is carried out pressing, mellow and full, make steamed bread of corn outer surface fabric smooth and uniform, then By the second conveyer belt 34 row of being delivered to dish device 4.

5) row's dish is collected: the steamed bread of corn after the molding of shaped device 3 passes through its sensor 47 by arrangement equidistant for steamed bread of corn On the 3rd conveyer belt 42, by push pedal 43 by steamed bread of corn through neat being arranged in catch tray 45 of slide plate 46, it is achieved steamed bread of corn Automatic molding process.

The above is only the preferred embodiment of the present invention, and protection scope of the present invention is not limited merely to above-mentioned enforcement Example, all technical schemes belonged under thinking of the present invention belong to protection scope of the present invention.It should be pointed out that, for the art Those of ordinary skill for, some improvements and modifications without departing from the principles of the present invention, these improvements and modifications are also Should be regarded as protection scope of the present invention.

Claims (10)

1. a fabric shear, it is characterised in that: include the module (221) for severing fabric, for placement module (221) base (222) and led in middle part and the driving ring (223) being slidably connected with module (221), described module (221) Arrange in triangle bulk, and be provided with strip groove (224), some described modules on the triangular facet driving ring (223) to contact (221) be spliced to form regular polygon, and this regular polygon deviate from drive ring (223) end face center be formed with hemispherical shape Depression (28), described driving ring (223) is provided with the litter for driving module (221) to slide in base (222) (225), in described litter (225) is arranged at strip groove (224) and it is slidably connected with strip groove (224), described base (222) stopper slot spacing when being provided with on for driving ring (223) driving module (221) to rotate in base (222) (226), module (221) is formed and base (222) middle part phase described regular polygon center time inconsistent with stopper slot (226) The opening of connection, described driving ring (223) is passed through to be used for controlling to drive ring (223) to rotate and is realized regular polygon opening and closing by strip-shaped surface The driving assembly (25) that material cuts off connects, and makes module (221) carry out back rotation in being in base (222) and slide with base (222) It is dynamically connected.

Fabric shear the most according to claim 1, it is characterised in that: described driving assembly (25) includes driving cylinder (251), universal driving shaft (252) and be arranged at the pivot pin (253) driven on ring (223), described universal driving shaft (252) is provided with and drives For the groove (254) movable for pivot pin (253) when rotating ring (223) rotates, described cylinder is fixing with base (222) to be connected, institute Stating that the piston of universal driving shaft (252) one end and cylinder is fixing to be connected, the other end is rotationally connected with pivot pin (253).

Fabric shear the most according to claim 1, it is characterised in that: described module (221) contacts with base (222) End face on be provided with for guiding and the bar shaped limited block (227) that slides in base (222) of spacing module (221), institute Stating and be provided with on base (222) and the strip-shaped clamp groove of bar shaped limited block (227) phase clamping, described module (221) is limited by bar shaped Slide in strip-shaped clamp groove in position block (227) and base (222) is slidably connected, and promotes to be slidably connected between adjacent block (221).

Fabric shear the most according to claim 1, it is characterised in that: the contact between adjacent described module (221) Being provided with ventilative groove (228) on face, described ventilative groove (228) connects with two triangle end faces of module (221).

Fabric shear the most according to claim 1, it is characterised in that: described base is provided with for protecting on (222) Protecting the protective cover (220) of module (221), described protective cover (220) removably connects with base (222).

6. a steamed bread of corn forming machine, including entering face conveyer device (1) for what fabric was processed into strip, it is characterised in that: Described enter face conveyer device (1) be connected with in turn to cut off fabric and be pressed into pre-being pressed into of the hemispherical recess of hat shape and bottom in advance Type device (2), the steamed bread of corn after molding is carried out the apparatus for shaping (3) of shaping processing and the steamed bread of corn after shaping is received Row's dish device (4) of collection, described pre-molding device (2) includes frame (21) and is arranged at frame (21) above such as claim Fabric shear, lower mold assemblies (24) described in 1-5 any one and be used for driving lower mold assemblies (24) by lower mold assemblies (24) towards the reciprocating cam pack of fabric shear (26), shape between described lower mold mould (23) and fabric shear Become with by cavity (27) compressing for fabric, described frame (21) is provided with for fabric is passed through lower mold assemblies (24) with Charging aperture (29) between fabric shear.

Steamed bread of corn forming machine the most according to claim 6, it is characterised in that: described lower mold assemblies (24) include in hat shape and Lower hollow arrange mould (23), for delivery mold (23) the first conveyer belt (241) and with cam pack (26) phase The push rod (243) connected, described first conveyer belt (241) is divided into left conveyer belt (2411) and right conveyer belt (2412), described mould Tool (23) is positioned between left conveyer belt (2411) and right conveyer belt (2412) on the passage (2413) formed, described cam pack (26) by driving push rod (243), mould (23) is socketed on push rod (243) above and to move towards fabric shear direction, described Described cavity (27) is formed when mould (23) is at the highest notch and between fabric shear.

Steamed bread of corn forming machine the most according to claim 6, it is characterised in that: described apparatus for shaping (3) includes bracing frame And the trim panel (32), shaping conveyer belt (33), the band that are arranged on bracing frame (31) are used for carrying steamed bread of corn after molding (31) The second conveyer belt (34) and be used for driving the driving motor (35) of shaping conveyer belt (33) and the second conveyer belt (34) transmission, Formed between described trim panel (32), shaping conveyer belt (33) and the second conveyer belt (34) for the shaping of steamed bread of corn shaping after molding Passage (36), described shaping conveyer belt (33) is in shaping channel (36) by the steamed bread of corn after driving motor (35) makes shaping Rotate, and contact with trim panel (32) and shaping conveyer belt (33) rotation.

Steamed bread of corn forming machine the most according to claim 6, it is characterised in that: described row's dish device (4) includes body (41) And it is arranged at the 3rd conveyer belt (42) of steamed bread of corn after body (41) is above used for carrying shaping, for promoting the 3rd conveyer belt (42) push pedal (43) of steamed bread of corn on, the push pedal being used for driving push pedal (43) to move drive cylinder (44), are used for collecting steamed bread of corn Catch tray (45), for push pedal push steamed bread of corn time slide into the slide plate (46) in catch tray (45) and be arranged at the 3rd It is used for controlling the biography of the spacing that apparatus for shaping (3) is delivered to the 3rd upper two adjacent steamed breads of corn of conveyer belt (42) on conveyer belt (42) Sensor (47), described slide plate (46) is obliquely installed in the side of the 3rd conveyer belt (42), described 3rd conveyer belt (42) opposite side It is connected with push pedal (43), and slide plate (46) is arranged in the 3rd conveyer belt (42) both sides with push pedal (43) to it.

Steamed bread of corn forming machine the most according to claim 6, it is characterised in that enter face conveyer device (1) described in: and include into face Conveyer belt (11), pre-pressure surface roller (12), lower conveyer belt (13), thin wheel assembly (14), volume face roll assembly (15) and guiding group Part (16), described in enter face conveyer belt (11) and be connected with the pre-pressure surface roller (12) of pressing fabric, described pre-pressure surface roller (12) lower section sets Being equipped with for carrying the lower conveyer belt (13) that pressing is expected below, described lower conveyer belt (13) is upper and is used for carrying out pressing fabric beating The thin wheel assembly (14) that thins connects, described in thin wheel assembly (14) and volume face roll assembly (15) for fabric being rolled into strip Connect, described lower conveyer belt (13) and the guiding group for strip fabric being guided the charging aperture (29) being delivered in frame (21) Part (16) connects.