CN114145324A - Noodle extruding device and noodle extruding method thereof - Google Patents

Abstract

The invention belongs to the technical field of extruded surface equipment application, and discloses extruded surface equipment which comprises a material conveying assembly, wherein three extrusion production lines are arranged below the material conveying assembly, each extrusion production line consists of an extrusion assembly, a traction assembly, a shredding assembly, a fixed conveying line and a coiling assembly, and the extrusion assembly, the traction assembly, the shredding assembly, the fixed conveying line and the coiling assembly are linearly arranged on the same line. According to the invention, the feeding assembly and the multiple groups of extrusion production lines work simultaneously, so that the working efficiency can be greatly improved, workers only need to use other equipment to put processed dough wadding into the inner box of the feeding assembly, and the coiling assembly is arranged at the tail end of the equipment to collect noodles, so that the workload of the workers is greatly reduced, compared with the traditional equipment, the secondary extrusion can obviously improve the extrusion effect, and in addition, the shredding cutter assembly is of a detachable structure, so that the cutter replacement is more convenient.

Description

Noodle extruding device and noodle extruding method thereof

Technical Field

The invention relates to a noodle extruding device, in particular to a noodle extruding device and a noodle extruding method thereof, belonging to the technical field of application of noodle extruding devices.

Background

Present noodless extrusion equipment is diversified, can satisfy the use basically, but still have certain deficiency, for example degree of automation is not high, needs manual cooperation operation, has increased artifical burden, and work efficiency is not high, and simple extrusion once only, the extrusion effect is not enough good, and the face area that extrudes is compact enough, and it is more troublesome to change the shredding knife in addition, needs artifical quick collection noodless at last, has increased the labour, for this reason, our extrusion face equipment and extrusion face method.

Disclosure of Invention

The invention aims to solve the problems that the existing noodle extruding equipment is low in automation degree and needs manual cooperation operation, the existing equipment is only used for extruding once, the extruding effect is not good enough, the extruded noodle belt is not compact enough, in addition, the replacement of a shredding knife is troublesome, and finally, the noodles need to be collected manually and rapidly, so that the labor force is increased.

The purpose of the invention can be realized by the following technical scheme: the extrusion face equipment comprises a material conveying assembly, wherein three extrusion production lines are arranged below the material conveying assembly, each extrusion production line is composed of an extrusion assembly, a traction assembly, a shredding assembly, a fixed conveying line and a coiling assembly, and the extrusion assembly, the traction assembly, the shredding assembly, the fixed conveying line and the coiling assembly are linearly arranged on the same line.

The invention has further technical improvements that: defeated material subassembly is including truss and slide, the slide is installed on the top of truss through two linear guide and sliders, the up end fixedly connected with outer container of slide, and the internally mounted of outer container has the inner box, the upper and lower opening that is of inner box, cylinder one is all installed to the both sides of inner box, and the terminal articulated shrouding that has of piston rod of inner box, the shrouding is located the bottom of inner box, the rack is installed to one side of truss, motor one is installed to the one corner department of slide up end, and the output shaft of motor one passes the slide and installs at its output shaft end with rack intermeshing gear, install the guide case that equals with extrusion line quantity on the truss.

The invention has further technical improvements that: the extrusion assembly comprises a first machine body and a material collecting box, the material collecting box is installed at the top end of the first machine body, an extrusion outer barrel is installed inside the first machine body through two support plates, the two support plates are installed at two ends of the extrusion outer barrel respectively, a screw rod is rotatably connected inside the extrusion outer barrel through a bearing seat, a third motor for driving the screw rod to rotate is installed at one end inside the first machine body, and a heating wire is installed on the outer surface of the outlet end of the extrusion outer barrel;

wherein, the top fixed mounting of case that gathers materials has motor two, the terminal fixedly connected with stirring roller of output shaft of motor two, first extrusion is installed to the exit end of extrusion urceolus, and the outer end of first extrusion is installed and is extruded first two, first extrusion and first two carry out fixed connection through two semicircle clamps.

The invention has further technical improvements that: the surface of the first extrusion head and the surface of the second extrusion head are circumferentially welded with separating sheets in an array manner, the maximum outer diameter of the first extrusion head is smaller than the inner diameter of the outer extrusion cylinder, the maximum outer diameter of the second extrusion head is smaller than the maximum outer diameter of the outer extrusion cylinder, and the top end of the outlet end of the outer extrusion cylinder is provided with a scraper.

The invention has further technical improvements that: the utility model discloses a hot rolling machine, including the hot rolling machine, the hot rolling machine is installed on the machine body, the machine body is installed on the machine body, the machine body is installed on the machine body, the machine body is installed on the machine body, the machine body is installed on the machine body, the machine body is installed on the machine body, the machine body.

The invention has further technical improvements that: the shredding assembly comprises a second machine body and two groups of rollers, a partition plate is arranged inside the second machine body, a feeding hole is formed in the top end of the second machine body, the two groups of rollers are distributed on two sides of the feeding hole and are rotatably connected to the top end of the second machine body through bearing seats, mounting bars are symmetrically arranged on the top end of the inside of the second machine body, copper combs are clamped on the mounting bars, mounting blocks are symmetrically arranged on the upper end face of the partition plate, a shredding knife assembly is arranged above the mounting blocks, a driving tooth is rotatably connected to one side of the shredding knife assembly through a second vertical plate and a rotating shaft, a fifth motor is arranged below the rotating shaft and is arranged at the bottom end of the partition plate, and an output shaft of the fifth motor is in transmission connection with the rotating shaft through a third synchronous belt assembly.

The invention has further technical improvements that: the center department fixedly connected with ejection of compact cover of two bottoms of running roller, and one side symmetry of ejection of compact cover installs cylinder two, two the common fixedly connected with cutting off cutter of piston rod end of cylinder two, fixed transfer chain installs in the bottom of ejection of compact cover to the one end of fixed transfer chain extends in shredding assembly's inside, the lapping subassembly sets up the exit end at fixed transfer chain, and the height that highly is less than fixed transfer chain of lapping subassembly.

The invention has further technical improvements that: the filament cutter component comprises two first vertical plates and two filament cutters, the two first vertical plates are respectively arranged at the top ends of the mounting blocks, the two filament cutters are rotatably arranged between the first vertical plates through bearings, driven teeth I are arranged at shaft ends of the two filament cutters and are meshed with each other, and driven teeth II are fixedly connected to the other shaft end of one filament cutter and are meshed with the driving teeth.

The invention has further technical improvements that: the lapping subassembly is including support and activity transfer chain, the top at the support is installed through two linear guide and sliders to the activity transfer chain, hold-in range subassembly four is installed to one side of support, and four pivoted motors of drive hold-in range subassembly six are installed to one side of hold-in range subassembly four, through connecting plate interconnect between one side of hold-in range subassembly four and the activity transfer chain.

The invention also provides a noodle extruding method of the noodle extruding equipment, which comprises the following specific steps:

the method comprises the following steps: pouring the processed dough wadding into an inner box in a material conveying assembly, wherein sealing plates which can be automatically opened under the control of a first air cylinder are arranged on two sides of the inner box, when piston rods of the first air cylinders extend out, the two sealing plates are opened, so that the dough wadding falls into a material guide box, and then the dough wadding falls into a material collecting box in an extrusion assembly, and a second motor drives a stirring roller to enable the dough wadding to be difficult to block and to enter an extrusion outer cylinder in order;

step two: secondly, a screw rod is driven by a motor III to rotate, the screw rod extrudes dough wadding to the outlet end of the screw rod, a heating wire arranged on an extrusion outer cylinder close to the outlet end heats the dough belt to be mature, an extrusion head I and an extrusion head II are arranged at the outlet end of the extrusion outer cylinder, and separating sheets on the surfaces of the extrusion head II and the extrusion head I can extrude the dough wadding for the second time, so that the dough wadding is extruded to be more compact, the extruded cylindrical dough skin is cut by a cutter, and then the dough belt is formed;

step three: the area of face passes in order and draws running roller one and the hot-rolling roller in the subassembly, hot-blast case in the subassembly of drawing provides steam to two hot-rolling rollers, make the difficult gassing of area, the area of face after drawing by the subassembly of drawing gets into shredding in the subassembly and shreds the dissection, two supplementary areas of running roller on shredding the subassembly top get into in shredding the cutter subassembly, motor five drive hold-in range subassembly three rotates, then drive shredding cutter subassembly and rotate, shred the area of face, the area of face after shredding gets into ejection of compact cover, then transmit by fixed transfer chain, the lapping subassembly that the cooperation set up can reciprocating motion, collect noodless, and lap it.

Compared with the prior art, the invention has the beneficial effects that:

1. through setting up defeated material subassembly and multiunit extrusion production line simultaneous working, can promote work efficiency by a wide margin, the staff only need use other equipment to the inner box in the defeated material subassembly drop into the good face wadding of handling can to be provided with the lapping subassembly at the equipment end and collect noodless, very big reduction staff's work load.

2. Be provided with the heater strip among the extrusion subassembly, first extrusion and second extrusion, the heating wire that the extrusion urceolus is close to the exit end setting heats the face area ripe, make the follow-up difficult gassing of face area, and install first extrusion and second extrusion at the extrusion urceolus exit end, the spacer on first surface of second extrusion and extrusion can be with face wadding secondary extrusion more meticulous, make face wadding extruded compacter, the face skin that is the tube-shape by the extrusion is cut out through drawing the sword, then the shaping is the face area, more traditional equipment, secondary extrusion can show improvement extrusion effect.

3. The shredding knife assembly is arranged to be of a detachable structure, the sealing plate on the surface of the shredding knife assembly is opened, the shredding knife assembly is taken out and then replaced by other shredding knife assemblies, and the two copper combs can be directly extracted from the feed inlet, so that the equipment replacement knife is more convenient, and the operation, cleaning and replacement of the knife are easy for workers.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of an extrusion line of the present invention.

FIG. 3 is a schematic view of a feeding module according to the present invention.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 3.

FIG. 5 is a second schematic view of a feeding assembly of the present invention.

Fig. 6 is an enlarged schematic view of the structure at B in fig. 5.

FIG. 7 is one of the schematic views of the extrusion assembly of the present invention.

FIG. 8 is a second schematic view of the extrusion assembly of the present invention.

Fig. 9 is a schematic cross-sectional view of the structure at C-C in fig. 8.

Fig. 10 is a schematic view of a first extrusion head, a second extrusion head, and a separator in accordance with the present invention.

Fig. 11 is a schematic view of a tow assembly of the present invention.

FIG. 12 is a schematic view of a filament cutting assembly according to the present invention.

FIG. 13 is a schematic view showing the internal structure of the filament cutting assembly according to the present invention.

FIG. 14 is a schematic view of a julienne blade assembly of the present invention.

FIG. 15 is a schematic view of the discharge, cylinder two and cutoff knife of the present invention.

FIG. 16 is a schematic view of a roll assembly of the present invention.

In the figure: 1. a material conveying component; 11. a truss; 12. a slide plate; 13. an outer box; 14. an inner box; 15. a first cylinder; 16. closing the plate; 17. a rack; 18. a first motor; 19. a gear; 110. a material guiding box;

2. an extrusion production line;

21. an extrusion assembly; 211. a first machine body; 212. a material collecting box; 213. a second motor; 214. a support plate; 215. extruding the outer cylinder; 216. a screw rod; 217. a third motor; 218. heating wires; 219. a stirring roller; 2110. a first extrusion head; 2111. a second extrusion head; 2112. a semicircular hoop; 2113. a separator; 2114. a cutter;

22. a traction assembly; 221. a mounting frame; 222. a first roller; 223. a hot roller; 224. a first synchronous belt component; 225. a fourth motor; 226. a synchronous belt component II; 227. a hot air box;

23. a shredding assembly; 231. a second machine body; 232. a second roller; 233. a partition plate; 234. a feed inlet; 235. a copper comb; 236. mounting blocks; 237. a shredding knife assembly; 2371. a first vertical plate; 2372. a shredding knife; 2373. a first driven gear; 2374. a second driven tooth; 238. a second vertical plate; 239. a rotating shaft; 2310. a driving tooth; 2311. a fifth motor; 2312. a synchronous belt component III; 2313. a discharge cover; 2314. a second air cylinder; 2315. a cutting knife; 2316. mounting a bar;

24. fixing the conveying line;

25. a coiling assembly; 251. a support; 252. a movable conveyor line; 253. a synchronous belt component IV; 254. a sixth motor; 255. a connecting plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-16, an extrusion surface apparatus includes a material conveying assembly 1, three extrusion lines 2 are disposed below the material conveying assembly 1, each extrusion line 2 is composed of an extrusion assembly 21, a traction assembly 22, a filament cutting assembly 23, a fixed conveying line 24 and a rolling assembly 25, and the extrusion assembly 21, the traction assembly 22, the filament cutting assembly 23, the fixed conveying line 24 and the rolling assembly 25 are linearly arranged on a line.

The coiling assembly 25 comprises a support 251 and a movable conveying line 252, the movable conveying line 252 is mounted at the top end of the support 251 through two linear guide rails and a sliding block, a four synchronous belt assembly 253 is mounted at one side of the support 251, a six motor 254 for driving the four synchronous belt assembly 253 to rotate is mounted at one side of the four synchronous belt assembly 253, and one side of the four synchronous belt assembly 253 is connected with the movable conveying line 252 through a connecting plate 255.

By adopting the technical scheme: through setting up defeated material subassembly 1 and the simultaneous working of multiunit extrusion production line 2, can promote work efficiency by a wide margin, the staff only need use other equipment to the inner box 14 in defeated material subassembly 1 in drop into the good face wadding of handling can to be provided with lapping subassembly 25 at the equipment end and collect noodless, very big reduction staff's work load.

Defeated material subassembly 1 is including truss 11 and slide 12, slide 12 installs the top at truss 11 through two linear guide and slider, the up end fixedly connected with outer container 13 of slide 12, and the internally mounted of outer container 13 has inner box 14, the upper and lower opening of inner box 14, cylinder 15 is all installed to the both sides of inner box 14, and the terminal articulated shrouding 16 that has of piston rod of inner box 14, shrouding 16 is located the bottom of inner box 14, rack 17 is installed to one side of truss 11, motor 18 is installed to one corner department of slide 12 up end, and the output shaft of motor 18 passes slide 12 and installs at its output shaft end with rack 17 intermeshing gear 19, install guide box 110 equal with extrusion line 2 quantity on the truss 11.

The extrusion assembly 21 comprises a first machine body 211 and a material collecting box 212, wherein the material collecting box 212 is installed at the top end of the first machine body 211, an extrusion outer cylinder 215 is installed inside the first machine body 211 through two support plates 214, the two support plates 214 are respectively installed at two ends of the extrusion outer cylinder 215, a screw rod 216 is rotatably connected inside the extrusion outer cylinder 215 through a bearing seat, a third motor 217 for driving the screw rod 216 to rotate is installed at one end inside the first machine body 211, and a heating wire 218 is installed on the outer surface of the outlet end of the extrusion outer cylinder 215;

the top end of the material collecting box 212 is fixedly provided with a second motor 213, the tail end of an output shaft of the second motor 213 is fixedly connected with a stirring roller 219, the outlet end of the extrusion outer cylinder 215 is provided with a first extrusion head 2110, the outer end of the first extrusion head 2110 is provided with a second extrusion head 2111, and the first extrusion head 2110 and the second extrusion head 2111 are fixedly connected through two semicircular hoops 2112.

The separating plates 2113 are welded on the surfaces of the first extrusion head 2110 and the second extrusion head 2111 in a circumferential array mode, the maximum outer diameter of the first extrusion head 2110 is smaller than the inner diameter of the extrusion outer cylinder 215, the maximum outer diameter of the second extrusion head 2111 is smaller than the maximum outer diameter of the extrusion outer cylinder 215, and a scriber 2114 is installed at the top end of the outlet end of the extrusion outer cylinder 215.

Traction assembly 22 is including mounting bracket 221 and three first running rollers 222 of group, the outlet side at organism 211 is installed to mounting bracket 221, three first 222 of group running rollers rotate on the top of mounting bracket 221 through the bearing frame, two sets of hot running rollers 223 are installed to the below of running roller 222, and two sets of hot running rollers 223 also rotate through the bearing frame and install on mounting bracket 221, one side of two sets of hot running rollers 223 carries out the transmission through a hold-in range subassembly 224 and connects, four 225 of motor are installed to one side of hot running roller 223, and the output shaft of four 225 of motor is rather than being close to the hot running roller 223 axle head and is carried out the transmission through two 226 hold-in range subassemblies and connect, one side of two sets of hot running rollers 223 is provided with hot-air box 227, and the air outlet of hot-air box 227 is linked together with the inside of two sets of hot running rollers 223 respectively.

The shredding assembly 23 comprises a second organism 231 and two groups of second rollers 232, a partition plate 233 is arranged inside the second organism 231, a feeding hole 234 is formed in the top end of the second organism 231, the two groups of second rollers 232 are distributed on two sides of the feeding hole 234, the two groups of second rollers 232 are rotatably connected to the top end of the second organism 231 through bearing seats, mounting strips 2316 are symmetrically mounted at the top end of the inside of the second organism 231, copper combs 235 are connected to the mounting strips 2316 in a clamping mode, mounting blocks 236 are symmetrically mounted on the upper end faces of the partition plates 233, a shredding knife assembly 237 is mounted above the mounting blocks 236, driving teeth 2310 are rotatably connected to one side of the shredding knife assembly 237 through two vertical plates 238 and a rotating shaft 239, a fifth motor 2311 is arranged below the rotating shaft 239, the fifth motor 2311 is mounted at the bottom end of the partition plate 233, and an output shaft of the fifth motor 2311 is in transmission connection with the rotating shaft 239 through a third synchronous belt assembly 2312.

The center department fixedly connected with ejection of compact cover 2313 of the two 232 bottom ends of running roller, and two 2314 of cylinder are installed to ejection of compact cover 2313's one side symmetry, the common fixedly connected with cut-off tool 2315 of the piston rod end of two 2314 of two cylinders, the bottom at ejection of compact cover 2313 is installed to fixed transfer chain 24, and the one end of fixed transfer chain 24 extends in the inside of shredding the subassembly 23, and the setting of lapping subassembly 25 is at the exit end of fixed transfer chain 24, and the height that highly is less than fixed transfer chain 24 of lapping subassembly 25.

By adopting the technical scheme: the heating wire 218, the first extrusion head 2110 and the second extrusion head 2111 are arranged in the extrusion assembly 21, the surface belt is heated and matured by the heating wire 218 arranged on the extrusion outer cylinder 215 close to the outlet end, so that bubbles are not easily generated in the surface belt, the first extrusion head 2110 and the second extrusion head 2111 are arranged at the outlet end of the extrusion outer cylinder 215, the secondary extrusion of the surface wadding can be more delicate by the second extrusion head 2111 and the separation sheet 2113 on the surface of the first extrusion head 2110, so that the surface wadding is more compact in extrusion, the extruded cylindrical dough skin is separated by the scraper 2114, and then the surface belt is formed.

The wire cutting knife assembly 237 comprises two groups of first standing plates 2371 and two groups of wire cutting knives 2372, the first standing plates 2371 are respectively arranged at the top ends of the mounting blocks 236, the two wire cutting knives 2372 are rotatably arranged between the first standing plates 2371 through bearings, the first driven teeth 2373 are arranged at the shaft ends of the two wire cutting knives 2372, the two first driven teeth 2373 are meshed with each other, the second driven teeth 2374 are fixedly connected to the other shaft end of one wire cutting knife 2372, and the second driven teeth 2374 are meshed with the driving teeth 2310.

By adopting the technical scheme: the shredding knife assembly 237 is arranged to be a detachable structure, a sealing plate on the surface of the shredding assembly 23 is opened, the shredding knife assembly 237 is taken out and then replaced by other shredding knife assemblies 237, and the two copper combs 235 can be directly extracted from the feed port 234, so that the equipment replacement knife is more convenient, and the operation, cleaning and replacement of the knife are easy for workers.

The using method of the device specifically comprises the following steps:

the method comprises the following steps: pouring the processed dough wadding into an inner box 14 in a material conveying assembly 1, wherein sealing plates 16 which can be automatically opened and controlled by a first air cylinder 15 are arranged on two sides of the inner box 14, when piston rods of the first air cylinders 15 extend out, the two sealing plates 16 are opened, so that the dough wadding falls into a material guide box 110, and then in a material collecting box 212 which falls into an extrusion assembly 21, a second motor 213 drives a stirring roller 219 to enable the dough wadding to be difficult to block and to enter an extrusion outer cylinder 215 in order;

step two: secondly, a third motor 217 drives a spiral rod 216 to rotate, the spiral rod 216 extrudes dough wadding to the outlet end of the spiral rod, a heating wire 218 arranged on the extrusion outer cylinder 215 and close to the outlet end heats the dough belt to be mature, a first extrusion head 2110 and a second extrusion head 2111 are arranged at the outlet end of the extrusion outer cylinder 215, the second extrusion head 2111 and a separation sheet 2113 on the surface of the first extrusion head 2110 can extrude the dough wadding for the second time, so that the dough wadding is extruded more compactly, the extruded cylindrical dough skin is divided by a cutting knife 2114, and then the dough belt is formed;

step three: the noodle belt orderly passes through the first roller 222 and the hot roller 223 in the traction assembly 22, the hot air box 227 in the traction assembly 22 supplies hot air to the two hot rollers 223, the noodle belt is not easy to generate air bubbles, the noodle belt pulled by the traction assembly 22 enters the shredding assembly 23 to be shredded and cut into sections, the two second rollers 232 at the top end of the shredding assembly 23 assist the noodle belt to enter the shredding knife assembly 237, the motor five 2311 drives the synchronous belt assembly three 2312 to rotate, then the shredding knife assembly 237 is driven to rotate, the noodle belt is shredded, the shredded noodle belt enters the discharging cover 2313 and then is transmitted by the fixed conveying line 24, the coiling assembly 25 arranged in a matching mode can reciprocate, the noodle belt is collected and coiled.

When the device is used, firstly, the processed surface wadding is poured into an inner box 14 in a material conveying assembly 1, sealing plates 16 which can be automatically opened and controlled by a first air cylinder 15 are arranged on two sides of the inner box 14, when piston rods of the first air cylinders 15 extend out, the two sealing plates 16 are opened, so that the surface wadding falls into a material guide box 110, then the surface wadding falls into a material collecting box 212 in an extrusion assembly 21, a second motor 213 drives a stirring roller 219 to enable the surface wadding to be difficult to block and to enter an extrusion outer cylinder 215 in order, and a first motor 18 drives a gear 19 to engage with a rack 17, so that a sliding plate 12 can slide;

secondly, a third motor 217 drives a spiral rod 216 to rotate, the spiral rod 216 extrudes dough wadding to the outlet end of the spiral rod, a heating wire 218 arranged on the extrusion outer cylinder 215 and close to the outlet end heats the dough belt to be mature, a first extrusion head 2110 and a second extrusion head 2111 are arranged at the outlet end of the extrusion outer cylinder 215, the second extrusion head 2111 and a separation sheet 2113 on the surface of the first extrusion head 2110 can extrude the dough wadding for the second time, so that the dough wadding is extruded more compactly, the extruded cylindrical dough skin is divided by a cutting knife 2114, and then the dough belt is formed;

the noodle belt orderly passes through the first roller 222 and the hot roller 223 in the traction assembly 22, the hot air box 227 in the traction assembly 22 supplies hot air to the two hot rollers 223, so that the noodle belt is not easy to generate bubbles, the noodle belt pulled by the traction assembly 22 enters the shredding assembly 23 to be shredded and cut into sections, the two rollers two 232 at the top end of the shredding assembly 23 assist the noodle belt to enter the shredding knife assembly 237, the motor five 2311 drives the synchronous belt assembly three 2312 to rotate, then the shredding knife assembly 237 is driven to rotate, the noodle belt is shredded, the shredded noodle belt enters the discharging cover 2313, the piston rod of the air cylinder two 2314 can extend out at regular time to drive the cutting knife 2315 to break the shredded noodle strips at the back, then the noodle belt is conveyed by the fixed conveying line 24, the coiling assembly 25 arranged in a matching manner can reciprocate to collect the noodle belt and coil the noodle belt, the motor six 254 in the coiling assembly 25 drives the synchronous belt assembly four 253 to transmit, the timing belt assembly four 253 is driven back and forth to reciprocate.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a squeeze face equipment, is including defeated material subassembly (1), its characterized in that: three extrusion lines (2) are arranged below the material conveying assembly (1), each extrusion line (2) is composed of an extrusion assembly (21), a traction assembly (22), a shredding assembly (23), a fixed conveying line (24) and a coiling assembly (25), and the extrusion assembly (21), the traction assembly (22), the shredding assembly (23), the fixed conveying line (24) and the coiling assembly (25) are linearly arranged on one line.

2. An extrusion face apparatus as claimed in claim 1, wherein: the material conveying assembly (1) comprises a truss (11) and a sliding plate (12), the sliding plate (12) is installed at the top end of the truss (11) through two linear guide rails and a sliding block, the upper end face of the sliding plate (12) is fixedly connected with an outer box (13), an inner box (14) is arranged in the outer box (13), the upper part and the lower part of the inner box (14) are through holes, two sides of the inner box (14) are respectively provided with a first cylinder (15), and the tail end of the piston rod of the inner box (14) is hinged with a sealing plate (16), the sealing plate (16) is positioned at the bottom end of the inner box (14), a rack (17) is arranged on one side of the truss (11), a first motor (18) is arranged at one corner of the upper end surface of the sliding plate (12), and the output shaft of the first motor (18) passes through the sliding plate (12) and the tail end of the output shaft is provided with a gear (19) which is meshed with the rack (17), the truss (11) is provided with material guiding boxes (110) with the number equal to that of the extrusion production lines (2).

3. An extrusion face apparatus as claimed in claim 1, wherein: the extrusion assembly (21) comprises a first machine body (211) and a material collecting box (212), the material collecting box (212) is installed at the top end of the first machine body (211), an extrusion outer cylinder (215) is installed inside the first machine body (211) through two support plates (214), the two support plates (214) are installed at two ends of the extrusion outer cylinder (215) respectively, a screw rod (216) is rotatably connected inside the extrusion outer cylinder (215) through a bearing seat, a third motor (217) for driving the screw rod (216) to rotate is installed at one end inside the first machine body (211), and a heating wire (218) is installed on the outer surface of the outlet end of the extrusion outer cylinder (215);

wherein, the top fixed mounting of collection workbin (212) has motor two (213), the terminal fixedly connected with stirring roller (219) of output shaft of motor two (213), extrusion head (2110) are installed to the exit end of extrusion urceolus (215), and the outer end of extrusion head (2110) is installed and is extruded head two (2111), extrusion head one (2110) and extrusion head two (2111) carry out fixed connection through two semicircle clamps (2112).

4. An extrusion face apparatus as claimed in claim 3, wherein: the surface of the first extrusion head (2110) and the surface of the second extrusion head (2111) are circumferentially welded with partition plates (2113) in an array mode, the maximum outer diameter of the first extrusion head (2110) is smaller than the inner diameter of the extrusion outer cylinder (215), the maximum outer diameter of the second extrusion head (2111) is smaller than the maximum outer diameter of the extrusion outer cylinder (215), and a scraper (2114) is installed at the top end of the outlet end of the extrusion outer cylinder (215).

5. An extrusion face apparatus as claimed in claim 3, wherein: the traction assembly (22) comprises a mounting frame (221) and three groups of first rollers (222), the mounting rack (221) is mounted at the outlet side of the first machine body (211), the three groups of rollers I (222) rotate at the top end of the mounting rack (221) through a bearing seat, two groups of hot rollers (223) are mounted below the rollers I (222), and two groups of hot rollers (223) are also rotatably arranged on the mounting rack (221) through a bearing seat, one sides of the two groups of hot rollers (223) are in transmission connection through a first synchronous belt component (224), one side of the hot rollers (223) is provided with a fourth motor (225), an output shaft of the motor IV (225) is in transmission connection with the shaft end of the hot roller (223) close to the motor IV through a synchronous belt assembly II (226), one side of the two groups of hot roller (223) is provided with a hot air box (227), and the air outlet of the hot air box (227) is respectively communicated with the interiors of the two groups of hot rollers (223).

6. An extrusion face apparatus as claimed in claim 1, wherein: the shredding assembly (23) comprises a second machine body (231) and two groups of second rollers (232), a partition plate (233) is installed inside the second machine body (231), a feeding hole (234) is formed in the top end of the second machine body (231), the two groups of second rollers (232) are distributed on two sides of the feeding hole (234), the two groups of second rollers (232) are rotatably connected to the top end of the second machine body (231) through bearing seats, mounting strips (2316) are symmetrically installed at the top end inside the second machine body (231), copper combs (235) are clamped on the mounting strips (2316), mounting blocks (236) are symmetrically installed on the upper end face of the partition plate (233), a shredding knife assembly (237) is installed above the mounting blocks (236), driving teeth (2310) are rotatably connected to one side of the shredding knife assembly (237) through the second vertical plates (238) and a rotating shaft (239), and a fifth motor (2311) is arranged below the rotating shaft (239), and a motor five (2311) is arranged at the bottom end of the partition plate (233), and an output shaft of the motor five (2311) is in transmission connection with the rotating shaft (239) through a synchronous belt assembly three (2312).

7. An apparatus according to claim 6, wherein: the center department fixedly connected with ejection of compact cover (2313) of running roller two (232) bottom, and one side symmetry of ejection of compact cover (2313) installs cylinder two (2314), two the terminal fixedly connected with cutting off cutter (2315) jointly of piston rod of cylinder two (2314), the bottom at ejection of compact cover (2313) is installed in fixed transfer chain (24), and the one end of fixed transfer chain (24) extends in the inside of shredding subassembly (23), lapping subassembly (25) set up the exit end at fixed transfer chain (24), and the height that highly is less than fixed transfer chain (24) of lapping subassembly (25).

8. An apparatus according to claim 6, wherein: the shredding knife assembly (237) comprises two sets of first vertical plates (2371) and two sets of shredding knives (2372), wherein the first vertical plates (2371) are installed at the top end of the installation block (236) respectively, the two shredding knives (2372) are installed between the first vertical plates (2371) in a rotating mode through bearings, the first driven teeth (2373) are installed at shaft ends of the two shredding knives (2372), the first driven teeth (2373) are meshed with each other, the second driven teeth (2374) are fixedly connected to the other shaft end of one shredding knife (2372), and the second driven teeth (2374) are meshed with the driving teeth (2310).

9. An apparatus according to claim 7, wherein: lapping subassembly (25) is including support (251) and activity transfer chain (252), the top at support (251) is installed through two linear guide and slider in activity transfer chain (252), hold-in range subassembly four (253) are installed to one side of support (251), and the one side of hold-in range subassembly four (253) installs drive hold-in range subassembly four (253) pivoted motor six (254), through connecting plate (255) interconnect between one side of hold-in range subassembly four (253) and activity transfer chain (252).

10. A noodle extruding method of noodle extruding equipment is characterized in that: extrusion face using the extrusion face apparatus of claims 1-9, using the following steps:

the method comprises the following steps: pouring the processed flour wadding into an inner box (14) in a material conveying assembly (1), wherein sealing plates (16) which can be automatically opened and controlled by a first air cylinder (15) are arranged on two sides of the inner box (14), when piston rods of the first air cylinders (15) extend out, the two sealing plates (16) are opened, so that the flour wadding falls into a material guide box (110), and then in a material collection box (212) which falls into an extrusion assembly (21), a second motor (213) drives a stirring roller (219) to enable the flour wadding to be difficult to block and enter an extrusion outer barrel (215) in order;

step two: secondly, a motor III (217) drives a spiral rod (216) to rotate, the spiral rod (216) extrudes the dough wadding to the outlet end of the extrusion outer cylinder (215), a heating wire (218) arranged on the extrusion outer cylinder (215) close to the outlet end heats the dough belt to be mature, an extrusion head I (2110) and an extrusion head II (2111) are installed at the outlet end of the extrusion outer cylinder (215), the dough wadding can be extruded secondarily by the extrusion head II (2111) and a separation sheet (2113) on the surface of the extrusion head I (2110), so that the dough wadding is extruded more compactly, the extruded cylindrical dough skin is scratched by a scratching knife (2114), and then the dough belt is molded;

step three: the noodle belt sequentially passes through a first roller (222) and a hot roller (223) in a traction assembly (22), a hot air box (227) in the traction assembly (22) supplies hot air to the two hot rollers (223), so that the noodle belt is not easy to generate air bubbles, the noodle belt pulled by the traction assembly (22) enters a shredding assembly (23) to be shredded and cut into sections, two second rollers (232) at the top end of the shredding assembly (23) assist the noodle belt to enter a shredding cutter assembly (237), a fifth motor (2311) drives a third synchronous belt assembly (2312) to rotate, then drives the shredding cutter assembly (237) to rotate, the noodle belt is shredded, the shredded noodle belt enters a discharging cover (2313), then is conveyed by a fixed conveying line (24), and a coiling assembly (25) arranged in a matched mode can reciprocate to collect noodles and coil the noodles.

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