CN201898856U - Multifunctional non-fried noodle production line - Google Patents

Abstract

A multifunctional non-fried noodle production line sequentially comprises a wheat flour filtering machine, a wheat flour air conveying machine, a flour and liquid mixing machine, a dough conveyer, an all-in-one vacuum dough making and noodle making machine, a compound roller, a dough sheet folding machine, a dough sheet curing machine, a continuous roller, a shredding and forming machine, a multi-layer steaming machine, a transition device, a noodle box conveyer, an automatic shaping machine, an automatic setting machine, a dryer, an air cooling machine, a shunting conveyer and a packaging conveyer; and the transition device comprises a cutting-off and dividing machine, a vibration filament-loosing machine, a quantitative cutting-off and falling box machine and a quantitative finished noodle hanging and conveying machine. When non-fried noodles in wave form are produced, only the cutting-off and dividing machine in the transition device is started; when non-fried instant noodles are produced, a dry differential filament-loosing machine, the vibration filament-loosing machine and the cutting-off and falling box machine in the transition device are started; and when non-fried handmade noodles are produced, the dry differential filament-loosing machine, the vibration filament-loosing machine and a quantitative finished noodle hanging machine in the transition device are started. The multifunctional non-fried noodle production line realizes standard and automatic production of non-fried noodles and has the function of producing various non-fried noodles.

Description

Multi-functional non-frying surface production line

Technical field

The utility model relates to non-frying surface production field, especially has the production line that can produce multiple non-frying surface.

Background technology

Along with the raising of people's living standard, people's rhythm of life is also more and more faster, and in people's staple food, though fast ripe powder cereal preparation proportion in people's staple food is increasing, manual production powder face in the past is still in occupation of very big market.Up till now, replace by machine though produce the part operation of traditional-handwork powder face,, full-automatic production still do not accomplished in the production of traditional-handwork powder face, just is in semi-automatic production, its production efficiency is still lower.Production line for non-frying surface, even also there is not a unified production standard, for example non-fried corrugated surface, non-fried instant noodles, non-fried manual face etc., substantially there is not the complete automatic production line of a cover so far, this realizes that for later non-fried Noodles mass automatic production is very unfavorable, must seek a kind of standard automatic production line that can be fit to non-frying surface, the people that could be satisfied with are to the growing demand of non-fried Noodles.

Summary of the invention

Technical problem to be solved by this invention provides a kind of multi-functional non-frying surface production line, has realized the standard automation production flow line of non-frying surface, and has the function of producing multiple non-frying surface.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of multi-functional non-frying surface production line, comprise flour bolt filter, flour blower, powder liquid mixer, dough conveyer, continous vacuum and the face/vacuum pressure surface all-in-one that is arranged in order by the material direction of transfer, compound tablet press machine, the folded machine of dough sheet pendulum, dough sheet aging machine, continuously tablet press machine, chopping make-up machine, multilayer machine for steaming, pass that tipping is put, face box conveyer, automatic shaping machine, automatic sizing machine, dryer, Air cooler, shunting conveyer, packing conveyer; The tipping of described biography put comprise cut off divide row's machine, dry method differential pine silk machine, vibrations Song Siji, quantitatively cut off the box machine, quantitatively become to hang conveyer, the output of described multilayer machine for steaming docks with cutting off branch row machine input by conveyer belt, and described cut-out divides the output of row's machine to dock with face box conveyer by conveying mechanism; The output of described multilayer machine for steaming docks with vibrations pine silk machine input by dry method differential pine silk machine, described vibrations pine silk machine output by conveyer belt respectively with fall box machine input and quantitatively become to hang the butt joint of conveyer input of quantitative cut-out, the described quantitative cut-out box machine output that falls becomes extension conveyer output to dock with face box conveyer with quantitative.Production line of the present invention has converged three non-frying surface automatic production lines, is respectively non-fried corrugated surface production line, non-fried instant noodles production line and non-fried manual face production line.For non-fried corrugated surface, its face silk undulate, and denser between face silk and the face silk are not easy loosely, and the face produced needs boiling once more to eat; For non-fried instant noodles, because through dry method differential pine silk, vibrations pine silk, the relative corrugated surface of the crimpness of face silk is little, and more open between face silk and the face silk, it is edible that the digestion time that cooperates the multilayer machine for steaming again, the face boiling water of producing brew; For manual face, the face silk generally is vertical bar shaped, then by the fall mode of box of artificial extracting, still keeps vertical bar shaped after making the moulding of face silk.Chopping make-up machine and biography tipping are put and are cooperatively interacted, and just can produce different types of non-frying surface.When producing non-fried corrugated surface, the speed of chopping make-up machine slows down relatively, the process that has an accumulation after the face silk of making comes out, the face silk is curling shape, and then carry out the face silk through the multilayer precooker and finalize the design, in the biography tipping is put, only start cut-out branch row machine opposite silk at last and cut off box, so just can keep the curling shape of face silk, and denser between the face silk, be not easy loose; When producing non-fried instant noodles, the speed of chopping make-up machine is accelerated relatively, but the process that also can have an accumulation after the face silk comes out, the crimpness of face silk is less relatively, carry out the typing of face silk through the multilayer precooker again, starting a dry method differential pine silk machine at last in the biography tipping is put stretches to corrugated silk, the crimpness of further attenuating face silk, a starting shock pine silk machine makes between face silk and the face silk and becomes looser, starts quantitatively to cut off the box machine and finish quantitatively the fall operation of box of cut-out of silk backmost; When producing non-fried manual face, the speed of chopping make-up machine is further accelerated, the process that also can have an accumulation after the face silk comes out, the face silk can not curl substantially, carry out the typing of face silk through the multilayer precooker again, at last start a dry method differential pine machine in putting the face silk of relative vertical bar shaped is stretched passing tipping, further make the face silk become straight, starting shock pine silk machine makes between face silk and the face silk and becomes looser, start and quantitatively to become to hang the face silk that conveyer becomes to hang vertical bar shaped, the artificial then gripping surface silk box that falls.

As improvement, described continous vacuum and face/vacuum pressure surface all-in-one comprises frame, and frame is provided with vacuum oodle maker, vacuum dough mixing machine; Described vacuum oodle maker is provided with second charging aperture and second discharging opening; Described vacuum dough mixing machine is provided with first discharging opening and first charging aperture; Described first discharging opening and second charging aperture are connected, and described second discharging opening docks with compound tablet press machine input by conveyer belt; Described first charging aperture is provided with the high pressure airlock, and described dough conveyer is connected with described high pressure airlock.Owing to be provided with the high pressure airlock at the charging aperture place, vacuum dough mixing machine and vacuum oodle maker are interconnected, like this, with face and pressure surface the time, can guarantee to be in vacuum dough mixing machine and the vacuum oodle maker vacuum environment, be that vacuum dough mixing machine and vacuum oodle maker form negative pressure, make the dough sheet density of extruding big, hole can not occur in the dough sheet, therefore, the face silk of producing is easy fracture and cracked not; And can realize continuous vacuum production, enhance productivity.

As improvement, the folded machine of described dough sheet pendulum comprises that the pendulum closed assembly is put, the lamination conveying device, described pendulum closed assembly is put and is comprised pendulum lamination, the folded push rod of pendulum, the folded transmission mechanism of pendulum, the folded transmission mechanism of pendulum comprises eccentric wheel disc, one end of the folded push rod of described pendulum is connected on the eccentric wheel disc, the other end is hinged on the pendulum lamination, and described eccentric wheel disc is provided with the hole of different eccentric throws; The folded conveying device of described pendulum comprises belt conveyor and following belt conveyor.Change the folded amplitude of pendulum by changing eccentric push rod different installation sites on eccentric wheel disc, make dough sheet be snakelike trend; Lamination pressure surface device comprises pressure roller group and lower compression roller group, and the dough sheet of putting poststack is flattened, and makes dough sheet have the gluten of vertical and horizontal, has increased the quality of dough sheet greatly.

As improvement, described chopping make-up machine comprises that chasing-attachment, moulding divide array apparatus, moulding transmission net device, described chasing-attachment comprises chopping face rotor, face comb, described chopping face rotor is provided with a plurality of square or half arc shredding knife grooves, and described comb is provided with the scraping tooth corresponding with the shredding knife groove; Described moulding divides array apparatus to be positioned at the below of chasing-attachment, described moulding divides array apparatus to comprise some passages, described each passage is provided with a hinged pressing plate, and described pressing plate is provided with balancing weight, and described moulding transmission net device is located at moulding and divides the array apparatus below.

As improvement, described multilayer machine for steaming comprises cabinet, is located at conveying link network, steam apparatus for controlling of supply in the cabinet, and described steam apparatus for controlling of supply is connected with each layer in the cabinet; Described conveying link network comprises the support conveying link network in steaming face conveying link network and the cabinet, described steaming face carries link network to comprise upper strata conveying device, lower floor's conveying device, described upper strata conveying device constitutes steaming face with lower floor's conveying device series connection and carries link network, and described support carries link network to be located between upper strata conveying device and the lower floor's conveying device; Described chopping make-up machine output docks with the upper strata conveying device, divides a row's machine input and a dry method differential pine silk machine input to dock with cut-out respectively after described lower floor conveying device prolongs.In whole digestion process, powder face silk has passed through the boiling of three cabinet length strokes altogether, and digestion time is effectively prolonged, and makes the better quality of the powder face silk that boiling is come out.

Described vibrations pine silk machine involving vibrations dish, vibration motor, described vibrating disk are provided with import and outlet, and import dock with a dry method differential pine silk machine, outlet by conveyer belt respectively with fall box machine input and quantitatively become extension conveyer input to dock of quantitative cut-out; Described vibrating disk is fixed by spring, and described vibration motor is installed in the vibrating disk below and fixes with vibrating disk.

As improvement, described quantitative one-tenth is hung conveyer and is comprised cutter, becomes to hang conveyer, synchronous conveyor; Described vibrations pine silk machine docks with cutter by conveyer belt, and described one-tenth is hung conveyer and comprised first actuating unit, chain, peg, and described chain is enclosed within on the actuating unit, and described peg is fixed on the chain; Described synchronous conveyor is located at into extension conveyer below, and described synchronous conveyor comprises second actuating unit, belt, and described belt sleeve is on described second actuating unit.When producing non-fried manual face, after the face silk is quantitatively cut off by cutter, drop on the peg of extension conveyer, what at this time the face silk reduced by half hangs on the peg, be provided with synchronous conveyor owing to become to hang the conveyer below, the feasible face silk that gets off that hangs drops on the belt of synchronous conveyor, at this moment, half hangs on the peg above every bundle face silk, below drop on the belt on half, peg and belt are simultaneously to same direction and synchronous motion, guaranteed the conveying forward that the face silk can be static relatively, arrive the workman position from being transported to, make things convenient for the workman to operate, and the face silk can not be subjected to the pollution effect on ground.

The beneficial effect that the utility model is compared with prior art brought is:

1. realized the standard automatic assembly line production of non-frying surface;

2. the cooperation of putting by chopping make-up machine and biography tipping has realized a multi-functional non-frying surface production line with non-fried corrugated surface production line, non-fried instant noodles production line and non-fried manual face production line;

3. continous vacuum in the production line and face/vacuum pressure surface one function is produced the big dough sheet of density, makes the face silk of producing that bite more be arranged, and mouthfeel is better; And the demand of automated production is satisfied in can be under vacuum environment continuous realization and face, pressure surface production;

4. the multilayer machine for steaming in the production line can effectively improve the digestion time of powder face silk, makes its gelatinization degree higher, and powder face yarn quality is better; The device that has utilized multilayer to carry, the length space that can effectively save production line has facilitation for the production line of forming automation;

5. by cutting off the stepless difference velocity modulation joint mechanism that divides row's machine, reach the purpose of adjusting cutter mechanism and conveyer belt, the two is cooperatively interacted, eliminate the differential between the two, make production line can carry out the transition in the production line of non-fried corrugated surface smoothly;

6. entering non-fried craft at production line looks unfamiliar and produces, because manual face is a vertical bar shaped, half hangs on the peg above every bundle face silk, below drop on the belt on half, peg and belt are simultaneously to same direction and synchronous motion, guaranteed the conveying forward that the face silk can be static relatively, arrived the workman position from being transported to, the face silk can not be subjected to the pollution effect on ground.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Fig. 2 is continous vacuum and face/vacuum pressure surface all-in-one machine structure schematic diagram.

Fig. 3 is compound tablet press machine structural representation.

Fig. 4 is a dough sheet aging machine structural representation.

Fig. 5 is continuous tablet press machine structural representation.

Fig. 6 is a chopping shaping machine structure schematic diagram.

Fig. 7 is a multilayer precooker structural representation.

Fig. 8 is multilayer precooker drive connection figure.

Fig. 9 is for passing tipping interposed structure schematic diagram.

Figure 10 divides row's machine structural representation for cutting off.

Figure 11 is vibrations pine silk machine structural representation.

Figure 12 hangs the conveyor construction schematic diagram for quantitatively cutting into.

Figure 13 is a face box structural representation.

Figure 14 is technological process of production figure of the present invention.

The specific embodiment

The utility model is described in further detail below in conjunction with Figure of description.

As shown in Figure 1, a kind of multi-functional non-frying surface production line, comprise flour bolt filter 1, flour blower 2, powder liquid mixer 3, dough conveyer 4, continous vacuum and face/vacuum pressure surface all-in-one 5 of being arranged in order by the material direction of transfer, compound tablet press machine 6, the folded machine of dough sheet pendulum, dough sheet aging machine 7, continuously tablet press machine 8, chopping make-up machine 9, multilayer machine for steaming 10, pass that tipping puts 11, face box conveyer 12, automatic shaping machine 13, automatic sizing machine 14, dryer 15, Air cooler 16, shunting conveyer 17, packing conveyer 18.

Flour blower 2 structures comprise flour quantitative pot, weighing flour quantitative pot weight electronic scale, be located at flour quantitative pot bottom feeding machine, be positioned at reciprocating sieve, the Roots blower of feeding machine discharging opening below, described Roots blower is connected with the wind ajutage, be provided with feeding device between described reciprocating sieve and the described wind ajutage, described conveying device is connected by the rotation discharge valve with the wind ajutage.Because the needs of producing, initial raw flour need be promoted to certain altitude, and with the automatic feed of instant flour, the flour blower has been realized the automation of flour; Flour is poured in the flour quantitative pot, weight by the automatic weighing flour material of electronic scale, according to needed flour proportion, the control feeding machine is sent quantitative flour, flour drops to vibratory sieve, after removing the impurity in the flour, flour enters into the wind ajutage by the rotation discharge valve under the conveying device, open Roots blower, and according to flour feeding speed and output size, rotation discharge valve on the control wind ajutage drops into flour in the wind ajutage and is delivered to by wind in the hopper that is in eminence and fall in the powder liquid mixer high and convenient enforcement of its automaticity with instant flour automatically.

Powder liquid mixer 3 receives the flour of bringing from flour blower 2, is provided with delivery port in the exit of powder liquid mixer 3, and powder liquid mixer is delivered to flour and water in the dough conveyer 4 together.Be provided with screw rod agitating device 41 in the dough conveyer 4, by screw rod agitating device 41 flour and water evenly mixed, and be fed forward.

As shown in Figure 2, described continous vacuum and face/vacuum pressure surface all-in-one 5 comprises frame, and frame is provided with vacuum oodle maker 52, vacuum dough mixing machine 51.Described vacuum oodle maker 52 comprises machine barrel 522, and machine barrel 522 is provided with second charging aperture 521 and second discharging opening 523; Described vacuum dough mixing machine 51 comprises face tube 512, and face tube 512 is provided with first discharging opening 513 and first charging aperture 511; Described first discharging opening 513 and second charging aperture 521 are connected, and described second discharging opening 523 docks with compound tablet press machine input by conveyer belt; Described first charging aperture 511 is provided with high pressure airlock 53, and described dough conveyer is connected with described high pressure airlock 53.Owing to be provided with high pressure airlock 53 at the charging aperture place, vacuum dough mixing machine 51 and vacuum oodle maker 52 are interconnected, like this, with face and pressure surface the time, can guarantee to be in vacuum dough mixing machine 51 and the vacuum oodle maker 52 vacuum environment, be that vacuum dough mixing machine 51 and vacuum oodle maker 52 form negative pressure, make the dough sheet density of extruding big, hole can not occur in the dough sheet, therefore, the face silk of producing is easy fracture and cracked not; And can realize continuous vacuum production, enhance productivity.

As shown in Figure 3, compound tablet press machine 6 structures comprise three groups of monolithic press-roller devices 602 and one group of composite press roller device 603.Vacuum oodle maker 52 is divided into three parts of powder slurries by second discharging opening 523, every part of powder slurry falls on three groups of monolithic press-roller devices 602 of compound tablet press machine 6 correspondences, monolithic press-roller device 602 forms dough sheet with the dough brake slabbing, stacked mutually from three dough sheets that three groups of monolithic press-roller device 602 roll-ins are come out, form a compound dough sheet with three aspect chip architectures, compound dough sheet is sent to composite press roller device 603 places through transport tape, composite press roller device 603 is depressed into the compound dough sheet that becomes to have only one deck structure with three layers dough sheet, the dough sheet relative water content of layer of mediating in the compound dough sheet can improve, thereby by the total water content in the compound back of the water content control dough sheet of controlling this aspect sheet.

The folded machine of described dough sheet pendulum comprises that the pendulum closed assembly is put, the lamination conveying device, described pendulum closed assembly is put and is comprised pendulum lamination, the folded push rod of pendulum, the folded transmission mechanism of pendulum, the folded transmission mechanism of pendulum comprises eccentric wheel disc, one end of the folded push rod of described pendulum is connected on the eccentric wheel disc, the other end is hinged on the pendulum lamination, and described eccentric wheel disc is provided with the hole of different eccentric throws; The folded conveying device of described pendulum comprises belt conveyor and following belt conveyor.Change the folded amplitude of pendulum by changing eccentric push rod different installation sites on eccentric wheel disc, make dough sheet be snakelike trend; Lamination pressure surface device comprises pressure roller group and lower compression roller group, and the dough sheet of putting poststack is flattened, and makes dough sheet have the gluten of vertical and horizontal, has increased the quality of dough sheet greatly.

As shown in Figure 4, dough sheet aging machine 7 structures comprise dough sheet hoisting mechanism 706, transmission mechanism 701, frame, motor (not indicating), and described dough sheet hoisting mechanism 706 and transmission mechanism 701 are located in the described frame 704; Described transmission mechanism 701 comprises one group of transmission device at least, and present embodiment is ten groups of transmission devices, is last lower leaf setting between described ten groups of transmission devices.Described being between the transmission device that odd number layer transmission device 702 be, three, five, seven, nine layer is provided with driving chain 707, one deck with three layers between, three layers with five layers between, five layers with seven layers between, seven layers with nine layers between be equipped with driving chain 707 and be connected; Described being in is provided with driving chain 707 and connects between the transmission device that even numbers layer transmission device 705 be two, four, six, eight layers, two layers with four layers between, four layers with six layers between, six layers with eight layers between be equipped with driving chain 707 and be connected.Rate of tension in order to ensure the driving chain 707 of the transmission device that connects different layers, on driving chain 707, be provided with tightener sprocket (not indicating), described tightener sprocket is located on the frame 704 and can movable telescopic, the degree of tightener sprocket extruding driving chain 707 is big more, the rate of tension of driving chain 707 is just big more, can prevent that the driving chain 707 of pine broke away from sprocket wheel.Described motor is arranged on the orlop of transmission mechanism 701, and the rotating shaft of motor is provided with driving wheel 708, and described driving wheel 708 places are provided with follower 709, driving wheel 708 and follower 709 engagements; Described driving wheel 708 is connected by the transmission device of driving chain 707 with the 9th layer, and follower 709 is connected by the transmission device of driving chain 707 with the 8th layer.When motor turned round clockwise, driving wheel 708 drove all odd number layer transmission devices 702 and does synchronous clockwise running together, and the chain on the odd number layer transmission device 702 is being done the clockwise transmission synchronous with motor driving wheel 708 too; Driving wheel 708 is when doing clockwise running, follower 709 is being done counterclockwise running, follower 709 drives all even numbers layer transmission devices 705 and does synchronous counterclockwise hour hands running together, and the chain on the even numbers layer transmission device 705 is being done the counterclockwise transmission synchronous with motor driving wheel 708 too.Dough sheet after compound is transported to through dough sheet hoisting mechanism 506 that to be in top be on the transmission device of ground floor, the carrier chain band of clockwise transmission dough sheet and is moved right together, dough sheet begins to enter maturing process, when dough sheet runs to chain 703 ends on the ground floor transmission device, be folded to and enter into second layer transmission device; Because the chain 703 of second layer transmission device be counterclockwise transmission, dough sheet along with chain 703 together to left movement, when dough sheet ran to chain 703 ends once more, dough sheet was folded to once more, and entered on the 3rd layer the transmission device; The same with the transmission device situation of ground floor, dough sheet with chain 703 to left movement, by this kind mode, dough sheet is by in layer down conveying, and the operating path of dough sheet in transmission mechanism 701 is roughly Z-shaped, through five times back and forth after, dough sheet is transferred to i.e. the tenth layer the transmission device of the bottom, logical at last transition face frame (not indicating), dough sheet is sent aging machine, and the maturing process of dough sheet finishes.From the transmission device of top transmission device up to the bottom, dough sheet is covered this section stroke, is the maturing process of dough sheet; Because the transmission device of each layer has been saved the shared ground area of slaking of large tracts of land dough sheet greatly for placing up and down; Be provided with driving chain between the transmission device, make each transmission device can realize synchronous operation, guaranteed the stability of dough sheet in the middle of the slaking operation.

As shown in Figure 5, described continuous compressing tablet mechanism 8 comprises seven groups of tablet press machines 801, equidistantly arranges between the described tablet press machine 801, and described tablet press machine 801 comprises the optoelectronic switch 803 of one group of pressure roller 802, pressure roller motor (indicating), control pressure roller motor.The diameter of described seven groups of pressure rollers 802 successively decreases successively by the dough sheet throughput direction, seven groups of pressure roller 802 pressure surfaces of different-diameter, and the compressing tablet calendering is successively decreased than curve smoothing, and the gluten organization network forms evenly, makes face silk mouthfeel that bite be arranged; The transmission of every group of pressure roller separate electrical motor, optoelectronic switch 803 controls, the linear velocity of regulating every group of pressure roller 802 automatically, every group of pressure roller of balance 802 extrudes the continuous supply of dough sheet; Need be added wet process through chopping at last by the dough sheet behind the continuous pressure roller, dough sheet is converted to the technical process of face silk and finishes.

As shown in Figure 6, described chopping make-up machine 9 comprises that chasing-attachment, moulding divide array apparatus, moulding transmission net device, described chasing-attachment comprises chopping face rotor 902, face comb 901, described chopping face rotor 902 is provided with a plurality of half arc shredding knife grooves, and described comb 901 is provided with the scraping tooth corresponding with the shredding knife groove; Described moulding divides array apparatus to be positioned at the below of chasing-attachment, described moulding divides array apparatus to comprise some passages 903, described each passage 903 is provided with a hinged pressing plate 904, and described pressing plate 904 is provided with balancing weight 905, and moulding transmission net device is located at moulding and divides the array apparatus below.After dough sheet enters into the chopping make-up machine, make dough sheet become the face silk by chasing-attachment, the face silk divides the array apparatus break into portions by moulding then, regulates the balancing weight 905 of the pressing plate 904 on the passage, thereby changes the shape of pressing plate 904 suffered gravity change face silks.Pressing plate 904 suffered gravity are big more, and face silk suffered resistance when the passage is just big more, and the face silk will be piled up in passage so, and originally straight face silk becomes curling corrugated, and this technology is fit to production corrugated surface or instant noodles; On the contrary, pressing plate 904 suffered gravity are more little, and suffered resistance was just more little when the face silk passed through passage, and the face silk will be more smooth and easy by passage the time so, can keep the original vertical bar shape of face silk substantially, and this technology is fit to produce manual face or instant noodles.

Shown in Fig. 7,8, multilayer machine for steaming 10 comprises cabinet 1001, is located at conveying link network, steam apparatus for controlling of supply 1006 in the cabinet 1001, and described steam apparatus for controlling of supply 1006 communicates with cabinet 1001; Described conveying link network is " E " shape, comprise steaming face conveying link network 1002 and support conveying link network 1003, described steaming face carries link network 1002 to comprise upper strata conveying device 1004, lower floor's conveying device 1005, described upper strata conveying device 1004 constitutes steaming face with 1005 series connection of lower floor's conveying device and carries link network 1002, and described support carries link network 1003 to be located between upper strata conveying device 1004 and the lower floor's conveying device 1005.Flour need carry out boiling to it after becoming the face silk through front multiplex's manufacturing procedure, makes its gelatinization.The face silk enters in the cabinet 1001 by conveying mechanism, the steaming face that at first is transported to is carried the upper strata conveying device 1004 in the link network 1002, the face silk runs to the rear portion of cabinet 1001 always from the front portion of cabinet 1001 on upper strata conveying device 1004, passed through the boiling of cabinet 1001 length strokes; Afterwards, after the face silk is transported to the end of upper strata conveying device 1004, drop and carry on the front portion of link network 1003 at support, because support carries the transmission direction of link network 1003 opposite with upper strata conveying device 1004, the face silk is carried to the front portion from cabinet 1001 rear portions again, and the face silk has passed through the boiling of cabinet 1001 length strokes again; Afterwards, the face silk is transported to the end that support is carried link network 1003, drop then and carry on lower floor's conveying device 1005 front portions of link network 1002 at steaming face, because upper strata conveying device 1004 is connected with lower floor conveying device 1005, make lower floor's conveying device 1005 have transmission direction and the transmission speed identical with upper strata conveying device 1004, the face silk is carried on the link in lower floor and is moved, run to cabinet 1001 rear portions from cabinet 1001 front portions always, transfer out then outside the cabinet 1001, finish whole digesting technoloy.In whole digestion process, the face silk has passed through the boiling of three cabinet 1001 length strokes altogether, and digestion time is effectively prolonged, and makes the better quality of the face silk that boiling is come out.In addition,, can produce instant noodles or non-instant noodles, the instant noodles high cooking that suits, the boiling of suitable short time of non-instant noodles by the digestion time of chain of command silk.In general corrugated surface is fit to do non-instant noodles, and when producing corrugated surface, the face silk is 100 ℃ in temperature, and pressure is in the boiling environment of 0.2MPa, and digestion time is 90 seconds; When producing instant noodles, digestion time be 150 seconds because relatively more loose between face silk and the face silk, can guarantee that every face silk can both be boiled completely; When producing manual face, owing to consider hygienic issues, manual face is generally made non-instant, and its digestion time is 90 seconds.

As shown in Figure 9, pass tipping put 11 comprise cut off divide row's machine 111, vibrations pine silk machine 114, quantitatively cut off box machine 116, quantitatively become to hang conveyer 118, the output of described multilayer machine for steaming 10 docks with cutting off branch row machine 111 inputs by conveyer belt, and described cut-out divides the output of row's machine 111 to dock with face box conveyer 119 by conveying mechanism 112; The output of described multilayer machine for steaming 10 docks with vibrations pine silk machine 114 inputs by dry method differential pine silk machine 113, described vibrations pine silk machine 114 outputs docks with quantitatively cutting off box machine 116 inputs by conveyer belt 115, and vibrations pine silk machine 114 outputs become extension conveyer 118 inputs to dock by conveyer belt 115,117 with quantitative; Described quantitative cut-out fall box machine 116 outputs with quantitatively become extension conveyer 118 outputs to dock with face box conveyer 119.Chopping make-up machine 9 and biography tipping are put 11 and are cooperatively interacted, and just can produce different types of non-frying surface.When producing non-fried corrugated surface, the speed of chopping make-up machine 9 slows down relatively, the process that has an accumulation after the face silk of making comes out, the face silk is curling shape, and then carry out the face silk through multilayer precooker 10 and finalize the design, in the biography tipping is put, only start cut-out branch row machine 111 opposite silks at last and cut off box, so just can keep the curling shape of face silk, and denser between the face silk, be not easy loose; When producing non-fried instant noodles, cooperate the 10 long boilings of multilayer machine for steaming, put and start 113 pairs of corrugated silks of dry method differential pine silk machine in 11 and stretch passing tipping, the crimpness of further attenuating face silk, a starting shock pine silk machine 114 makes between face silk and the face silk and becomes looser, starts quantitatively to cut off box machine 116 and finish quantitatively the fall operation of box of cut-out of silk backmost; When producing non-fried manual face, consider hygienic issues, general manual face is non-instant noodles; The speed of chopping make-up machine is further accelerated during production, the face silk can not curl substantially, carry out the typing of face silk through the multilayer precooker again, putting the face silk that starts 113 pairs of relative vertical bar shapeds of dry method differential pine silk machine in 11 in the biography tipping at last stretches, further make the face silk become straight, a starting shock pine silk machine 114 makes between face silk and the face silk and becomes looser, starts quantitatively to become to hang the face silk that conveyer 118 is carried vertical bar shapeds, then the artificial gripping surface silk box that falls.

As shown in figure 10, cut off and divide row's machine 111 to comprise stepless difference velocity modulation joint mechanism 1110, cutter mechanism 1111, described stepless difference velocity modulation saves mechanism 1110 and comprises casing, first fixed gear 1112, second fixed gear 1113, the 3rd fixed gear 1114, the 4th fixed gear 1115.The rotating shaft of all fixed gears 1112～1115 is installed on the cabinet wall, fixed gear can rotate in casing around its rotating shaft, when making that each gear carries out transmission by chain 1117, rotate more smooth, described first fixed gear 1112 and second fixed gear 1113 are horizontally disposed with, with the 1114 vertical settings of the 3rd fixed gear, described second fixed gear 1113 and the 1115 vertical settings of the 4th fixed gear.Described first fixed gear 1112 and the 3rd fixed gear 1114 are formed first governor motion, the connected cutter mechanism 1111 of corresponding adjustment; Described second fixed gear 1113 and the 4th fixed gear 1115 are formed second governor motion, the connected conveying mechanism 112 of corresponding adjustment.Be provided with the groove frame between first governor motion and second governor motion, be provided with slide block in the described groove frame, this slide block can slide up and down in the groove frame, described slide block is a hollow-core construction, its inside is provided with accommodation space, be provided with first moving gear 1116 and second moving gear 1118 in the accommodation space, described first moving gear 1116 and second moving gear 1118 are to be arranged up and down and is installed on the slide block, links by slide block between first moving gear 1116 and second moving gear 1118.Be provided with chain 1117 links between described first fixed gear 1112, second fixed gear 1113, the 3rd fixed gear 1114, the 4th fixed gear 1115, first moving gear 1116, second moving gear 1118, because the below is first moving gear 1116 between first fixed gear 1112 and second fixed gear 1113, makes the chain 1117 of winning between fixed gear 1112, first moving gear 1116, second fixed gear 1113 be M shape; Because the top is second moving gear 1118 between the 3rd fixed gear 1114 and the 4th fixed gear 1115, makes that the chain 1117 between the 3rd fixed gear 1114, second moving gear 1118, the 4th fixed gear 1115 is W shape.Described the 3rd fixed gear 1114 is provided with first fifth wheel, first fifth wheel and the 3rd fixed gear 1114 are synchronized with the movement, and first fifth wheel is connected with cutter mechanism 1111 by chain 1117, make first fifth wheel and cutter mechanism 1111 synchronous, thereby reach the purpose of adjusting cutter mechanism 1111 corners by changing first fixed gear 1112 or the 3rd fixed gear 1114; Described the 4th fixed gear 1115 is provided with second fifth wheel, second fifth wheel and the 4th fixed gear 1115 are synchronized with the movement, and second fifth wheel links by chain and conveying mechanism 112, make the travelling gear of second fifth wheel and conveying mechanism 112 synchronous, thereby reach the purpose of adjusting conveying mechanism 112 shift positions by changing second fixed gear 1113 or the 4th fixed gear 1115.

As shown in figure 13, face box conveyer 119 comprises chain conveying mechanism (not indicating), face box.Described conveying mechanism runs through automatic shaping machine 13, automatic sizing machine 14, dryer 15.Described box comprises the support box 1192 of metal, the displacement box 1193 of plastics, and support box 1192 is provided with hanger 1191, and support box 1192 is installed on the chain conveying mechanism by hanger 1191.Be provided with some displacement boxes 1193 in the described support box 1192, in displacement box 1193, be provided with the compartment 1196 of two moulding powder agglomates or face piece, on the bottom of displacement box 1193, be densely covered with ventilative through hole, base plate hollow, convex with at the both sides of compartment 1196 displacement box 1193 to extend on the face of compartment 1196 and be provided with back-off 1195, back-off 1195 is included in the projection that displacement box 1193 convexes with extended wall on the face of compartment 1196 and stretched out and formed by the vertical surface of wall, on projection, be provided with guiding surface, on the side plate of oven dry box both sides, be provided with the retaining wall that cooperates with back-off 1195.On the side plate of oven dry box both sides, be provided with shrinkage pool 1194, retaining wall is the side of the face box far away bottom surface of shrinkage pool 1194, shrinkage pool cooperates with the back-off 1195 of displacement box 1193, be that displacement box 1193 can be fixed in the support box 1192, when producing difform non-frying surface piece, can change the displacement box 1193 in the face box at any time, to adapt to production requirement.

As shown in figure 11, described vibrations pine silk machine 114 involving vibrations dishes 1143, vibration motor 1141, described vibrating disk 1143 are provided with import 1143 and export 1144, import 1143 an and dry method differential pine silk machine dock, outlet 1144 by conveyer belt respectively with fall box machine input and quantitatively become extension conveyer input to dock of quantitative cut-out; Described vibrating disk 1143 is fixing by spring 1142, and described vibration motor 1141 is installed in vibrating disk 1143 belows and fixing with vibrating disk 1143.

As shown in figure 12, automatic ration becomes to hang conveyer 118 and comprises cutter 1181, becomes to hang conveyer 1182, synchronous conveyor 1184, the face silk that cutter 1181 is come conveying quantitatively cuts off, for manual face, the length of every part of face silk is approximately 1.2 meters, falls into into extension conveyer 1182 after the face silk is cut off.Described one-tenth is hung conveyer 1182 and is comprised first actuating unit, chain, peg 1185.Described first actuating unit comprises first motor, four chain wheel set, and described chain wheel set comprises a drive sprocket set and three passive chain wheel set, and passive chain wheel set is respectively the first passive chain wheel set, the second passive chain wheel set, the 3rd passive chain wheel set.Described first motor is connected with drive sprocket set, the described drive sprocket set and the first passive chain wheel set are located at the top and form the upper chain wheels, the second movable sprocket group is located under the drive sprocket set, the described the 3rd passive chain wheel set is located under the first passive chain wheel set, and the described second passive chain wheel set and the 3rd passive chain wheel set form the lower chain wheels.Described drive sprocket set and passive chain wheel set constitute by connecting rod and the sprocket wheel of being located at the connecting rod two ends.Described chain comprises first chain and second chain, and described first chain is enclosed within on the end sprocket wheel of described chain wheel set, and second chain is enclosed within on the sprocket wheel of the other end of described chain wheel set, and described peg 1185 is located between first chain and second chain.Described peg 1185 is trapezoidal, and the described inclined-plane, both sides of trapezoidal peg 1185 and the angle a of horizontal plane of falling is 75 °, makes things convenient for the workman to grasp face silk on the peg 1185 by hand, has improved production efficiency.After the face silk is cut off by cutter 1181, drop on the peg 1185 of extension conveyer 1182, what at this time the face silk reduced by half hangs on the peg 1185, be provided with synchronous conveyor 1184 owing to become to hang the conveyer below, the feasible face silk that gets off that hangs drops on the belt of synchronous conveyor 1184, at this moment, half hangs on the peg 1185 above every bundle face silk, below drop on the belt of synchronous conveyor 1184 on half, peg 1185 and belt are simultaneously to same direction and synchronous motion, guaranteed the conveying forward that the face silk can be static relatively, arrived the workman position from being transported to, the face silk can not be subjected to the pollution effect on ground.

Face box conveyer 119 is transported to automatic shaping machine 13 with the face box together with the face piece, automatic shaping machine 13 comprises upper press cover EGR, motor, described upper press cover EGR is provided with gland, described box conveying device is provided with the face box that cooperates with gland, and also being provided with can be to the blowning installation of face box air blowing; Described blowning installation comprises support, tracheae, eccentric mechanism; Described eccentric mechanism is fixedlyed connected with tracheae, and described support is provided with linear bearing, and described linear bearing cooperates with tracheae, and described tracheae is provided with that gas is chewed and air inlet.By the face silk group process upper press cover EGR of face face box conveyer 119 loadings without integer, upper press cover EGR and face box conveying device are for placing up and down, and equidistantly on the chain of upper press cover EGR be provided with a plurality of glands, because upper press cover EGR and face box conveyer are synchronous operation, make on the upper press cover EGR each gland all can with the compartment of each face box on face box conveyer corresponding matching one by one.Box is with after gland engages face to face, gas is chewed beginning and is blown in compartment, eccentric mechanism drives the straight line back and forth movement that tracheae is done level, gas is chewed and is followed tracheae and do back and forth movement together, the range of movement that making brings about the desired sensation chews on compartment increases, and returns up to the gland bending, and gland separates with the face box, blow and finish, face silk group is finished by integer; As required, many reshapers can be installed, silk group in opposite carries out air blowing integer repeatedly.

The face piece enters automatic sizing machine 14 through behind the automatic shaping, and described automatic sizing machine 14 comprises mainframe, motor, is provided with transmission mechanism in the described mainframe; Described transmission mechanism is divided into transmission mechanism and underdrive mechanism, and described upper and lower transmission mechanism includes transportation sprocket and chain; The described chain of going up transmission mechanism is provided with pressuring flat device, and the chain of described underdrive mechanism is provided with the face box; Described pressuring flat device comprises peg and hammer, described hammer comprises suspension rod and briquetting, described suspension rod one end is fixedlyed connected with briquetting, the other end is suspended on the peg, and the shape of described briquetting is consistent with the shape of face box, also is provided with restriction briquetting whirligig on the described briquetting, restriction briquetting whirligig is made of two backstays in the present embodiment, described two backstays, one end fixedly is welded on the briquetting, and the other end also surpasses described peg vertically upward, and peg is between two backstays.Face silk group in the face box is behind automatic shaping, the profile of face silk group is fixed substantially, but the structure of face silk group is more open, face silk group after the shaping is transported in the underdrive mechanism of automatic sizing machine with the face box, the upper and lower transmission mechanism of automatic sizing machine 14 is synchronous operation, last transmission mechanism drives pressuring flat device and does shuttling movement together, underdrive mechanism drives the face box and does shuttling movement together, face is box-packed be with face silk group with chain to rising, meet with synchronously downward pressuring flat device, the briquetting on the pressuring flat device just in time can be pressed on the face piece; Because upper and lower transmission mechanism is synchronous operation, pressuring flat device can be pressed in the face silk group stably, until the two is gone back just separately once more, face silk group is formalized in this process.

The face piece unloads the face piece of having finalized the design get off through after the automatic setting again behind drying machine 15, the Air cooler 16, then need shunt packing.Shunting conveyer 17 comprises frame, shunting conveying device, push rod device, described shunting conveying device comprises the first circulation transmission mechanism, the described first circulation transmission mechanism is provided with conveyer belt, described conveyer belt front upper is provided with the face supporting region, top, described conveyer belt rear portion is provided with some shunting zones, and the shunting zone throat width is bigger than exit width; Described push rod device comprises the second circulation transmission mechanism, and the described second circulation transmission mechanism is provided with some push rods, and described push rod is positioned at face supporting region top; The described face supporting region that falls extends on one side and is provided with some conduits, described each conduit different in size.The face piece needs to export packaging process at last through after a series of processing, generally needs to carry through shunting before packing, and the face piece of making is delivered to different bagging areas respectively and packs.The second circulation transmission mechanism band push rod and is done seesawing of repetition, after on the face supporting region that drops of the face piece marshalling of machine-shaping, push rod pushes a whole row's face piece together to the shunting conveying device, conduit owing to fall on the face supporting region is different in size, the asynchronism(-nization) that makes same horizontal face piece enter conveyer belt, conduit is short more, and the face piece in this conduit enters the conveyer belt time more early; Again because the speed of service of conveyer belt is faster than the speed of push rod, the face piece walking distance that is introduced on the conveyer belt is long more, at last, after all the face pieces in the face carrying that falls enter conveyer belt, each face piece potential difference can occur on conveyer belt, just, when running to slot, the face piece of making is not easy to occur the phenomenon of mutual extrusion owing to the dislocation between each face piece.

The multi-functional non-fried Production Line technology of the present invention:

As shown in figure 14, the operation that is arranged in order by the material direction of transfer: flour sieving 21, flour wind send 22, powder liquid mixes 23, dough carries 24, continous vacuum and face 25, continous vacuum pressure surface 26, compound compressing tablet 27, dough sheet pendulum are folded 28, dough sheet slaking 29, compressing tablet 30, face silk moulding 31, multilayer steam that face 32, functional shaping 33, the box that falls carry 34 continuously, automatic shaping 35, automatic sizing 36, oven dry 37, air-cooled 38, shunting carry 39, packing carries 40.

Described functional shaping 33 can change the technology that it comprises at any time according to the needs of producing: dry method differential pine silk 332, vibrations pine silk 333, cut off and divide row 331, cut off box 334, quantitatively become to hang and carry 335.Cut off and divide row 331 to be used for the face silk is quantitatively cut off and portioning; Dry method differential pine silk 332 is the speed differences that utilize conveyer belt, and the face silk is stretched in course of conveying, and the face silk after being stretched becomes more straight, and more open between face silk and the face silk; The principle that vibrations pines silk 333 utilizes vibrations shakes the pine silk to the face silk that passes through, and the face silk that shake behind the pine thread is looser; The box 334 that cuts off is used for the face silk quantitatively cut off and fall into the face box; Quantitatively becoming to hang conveying 335 mainly is the production needs that are used as manual face, becomes to hang in the process of carrying to keep the shape of face silk, and makes things convenient for the workman to grasp.

Go out corrugated surface or raw silk rings face by face silk moulding 31 technological formings; Steam face 31 technologies with the typing of face silk by multilayer, and mold non-fried instant corrugated surface, non-fried non-instant corrugated surface, non-fried instant raw silk rings face, non-fried non-instant raw silk rings face; The non-fried instant corrugated surface divides the row back to form instant noodles by the loose silk of dry method differential, vibrations pine silk, cut-out; Instant or non-instant raw silk rings face forms instant manual face or non-instant manual face after quantitatively becoming to hang to carry 325 operations.In general corrugated surface is fit to do non-instant noodles, and when producing corrugated surface, the face silk is 100 ℃ in temperature, and pressure is in the boiling environment of 0.2MPa, and digestion time is 90 seconds; When producing instant noodles, digestion time be 150 seconds because relatively more loose between face silk and the face silk, can guarantee that every face silk can both be boiled completely; When producing manual face, owing to consider hygienic issues, manual face is generally made non-instant, and its digestion time is 90 seconds.

Cut off and divide row's 331 operations to divide row's machine 111 to finish by cutting off, the pine wire process is finished by dry method differential pine silk machine 113 and vibrations pine silk machine 114, described cut-out box 324 operations that fall are finished by the quantitative cut-out box machine 116 that falls, and described quantitative one-tenth is hung and carried 325 operations to hang conveyer 118 by quantitative one-tenth to finish; Described cut-out divides the output of row's machine 111 to be connected with face box conveyer 119 by conveying mechanism 112; The output of described multilayer machine for steaming 10 docks with vibrations pine silk machine 114 inputs by dry method differential pine silk machine 113, described vibrations pine silk machine 114 outputs by conveyer belt 113,115 respectively with quantitative cut-out fall box machine 116 inputs with quantitatively become to hang conveyer 118 inputs and be connected, fall box machine 116 outputs and quantitatively become extension conveyer 118 outputs to dock of described quantitative cut-out with face box conveyer 112; When producing non-fried corrugated surface, only start to cut off and divide row's machine 111; Only start dry method differential pine silk machine 113, moving vibrations pine silk machine 114 when producing non-fried instant noodles and quantitatively cut off box machine 116; When producing non-fried manual face, only start dry method differential pine silk machine 113, moving vibrations pine silk machine 114 and quantitatively become extension conveyer 118.

Claims (8)

1. multi-functional non-frying surface production line is characterized in that: comprise flour bolt filter, flour blower, powder liquid mixer, dough conveyer, continous vacuum and the face/vacuum pressure surface all-in-one that is arranged in order by the material direction of transfer, compound tablet press machine, the folded machine of dough sheet pendulum, dough sheet aging machine, continuously tablet press machine, chopping make-up machine, multilayer machine for steaming, pass that tipping is put, face box conveyer, automatic shaping machine, automatic sizing machine, dryer, Air cooler, shunting conveyer, packing conveyer.

2. multi-functional non-frying surface production line according to claim 1, it is characterized in that: the tipping of described biography put comprise cut off divide row's machine, dry method differential pine silk machine, vibrations Song Siji, quantitatively cut off the box machine, quantitatively become to hang conveyer, the output of described multilayer machine for steaming docks with cutting off branch row machine input by conveyer belt, and described cut-out divides the output of row's machine to dock with face box conveyer by conveying mechanism; The output of described multilayer machine for steaming docks with vibrations pine silk machine input by dry method differential pine silk machine, described vibrations pine silk machine output by conveyer belt respectively with fall box machine input and quantitatively become to hang the butt joint of conveyer input of quantitative cut-out, the described quantitative cut-out box machine output that falls becomes extension conveyer output to dock with face box conveyer with quantitative.

3. multi-functional non-frying surface production line according to claim 1 is characterized in that: described continous vacuum and face/vacuum pressure surface all-in-one comprises frame, and frame is provided with vacuum oodle maker, vacuum dough mixing machine; Described vacuum oodle maker is provided with second charging aperture and second discharging opening; Described vacuum dough mixing machine is provided with first discharging opening and first charging aperture; Described first discharging opening and second charging aperture are connected, and described second discharging opening docks with compound tablet press machine input by conveyer belt; Described first charging aperture is provided with the high pressure airlock, and described dough conveyer is connected with described high pressure airlock.

4. multi-functional non-frying surface production line according to claim 1, it is characterized in that: the folded machine of described dough sheet pendulum comprises that the pendulum closed assembly is put, the lamination conveying device, described pendulum closed assembly is put and is comprised pendulum lamination, the folded push rod of pendulum, the folded transmission mechanism of pendulum, the folded transmission mechanism of pendulum comprises eccentric wheel disc, one end of the folded push rod of described pendulum is connected on the eccentric wheel disc, the other end is hinged on the pendulum lamination, and described eccentric wheel disc is provided with the hole of different eccentric throws; The folded conveying device of described pendulum comprises belt conveyor and following belt conveyor.

5. multi-functional non-frying surface production line according to claim 1, it is characterized in that: described chopping make-up machine comprises that chasing-attachment, moulding divide array apparatus, moulding transmission net device, described chasing-attachment comprises chopping face rotor, face comb, described chopping face rotor is provided with a plurality of square or half arc shredding knife grooves, and described comb is provided with the scraping tooth corresponding with the shredding knife groove; Described moulding divides array apparatus to be positioned at the below of chasing-attachment, described moulding divides array apparatus to comprise some passages, described each passage is provided with a hinged pressing plate, and described pressing plate is provided with balancing weight, and described moulding transmission net device is located at moulding and divides the array apparatus below.

6. multi-functional non-frying surface production line according to claim 1 is characterized in that: described multilayer machine for steaming comprises cabinet, is located at conveying link network, steam apparatus for controlling of supply in the cabinet, and described steam apparatus for controlling of supply is connected with each layer in the cabinet; Described conveying link network comprises the support conveying link network in steaming face conveying link network and the cabinet, described steaming face carries link network to comprise upper strata conveying device, lower floor's conveying device, described upper strata conveying device constitutes steaming face with lower floor's conveying device series connection and carries link network, and described support carries link network to be located between upper strata conveying device and the lower floor's conveying device; Described chopping make-up machine output docks with the upper strata conveying device, divides a row's machine input and a dry method differential pine silk machine input to dock with cut-out respectively after described lower floor conveying device prolongs.

7. multi-functional non-frying surface production line according to claim 1, it is characterized in that: described vibrations pine silk machine involving vibrations dish, vibration motor, described vibrating disk are provided with import and outlet, an import and dry method differential pine silk machine dock, outlet by conveyer belt respectively with fall box machine input and quantitatively become extension conveyer input to dock of quantitative cut-out; Described vibrating disk is fixed by spring, and described vibration motor is installed in the vibrating disk below and fixes with vibrating disk.

8. multi-functional non-frying surface production line according to claim 1 is characterized in that: described quantitative one-tenth is hung conveyer and is comprised cutter, becomes to hang conveyer, synchronous conveyor; Described vibrations pine silk machine docks with cutter by conveyer belt, and described one-tenth is hung conveyer and comprised first actuating unit, chain, peg, and described chain is enclosed within on the actuating unit, and described peg is fixed on the chain; Described synchronous conveyor is located at into extension conveyer below, and described synchronous conveyor comprises second actuating unit, belt, and described belt sleeve is on described second actuating unit.

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