CN211281617U - Automatic vermicelli cutting device - Google Patents
Automatic vermicelli cutting device Download PDFInfo
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- CN211281617U CN211281617U CN201922308052.6U CN201922308052U CN211281617U CN 211281617 U CN211281617 U CN 211281617U CN 201922308052 U CN201922308052 U CN 201922308052U CN 211281617 U CN211281617 U CN 211281617U
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- dried noodles
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Abstract
The utility model discloses an automatic vermicelli cutting device, which comprises a processing platform, wherein the processing platform is provided with a conveying device for conveying vermicelli, a cutting device for cutting off the vermicelli and a material separating device for separating the cut vermicelli; the conveying device comprises two groups of conveyor belt mechanisms arranged side by side, the cutting device and the distributing device are arranged between the two groups of conveyor belt mechanisms, and the cutting device comprises a saw blade for cutting off the fine dried noodles; according to the noodle cutter, the fine dried noodles can be cut off quickly through the saw blade, the fine dried noodles can be applicable to loose noodles and bundled noodles, the cut fine dried noodles are neat, the attractiveness of the fine dried noodles is guaranteed, unnecessary broken slag cannot be generated, and raw materials are saved.
Description
Technical Field
The utility model relates to a vermicelli production facility, more specifically say, it relates to a vermicelli automatic cutout device.
Background
The dried noodles are fine, hairy, white, smooth, tough, storage-resistant and boiling-resistant handmade noodles, are round, thin, wide and flat, and are mainly made of common dried noodles, pattern dried noodles, handmade dried noodles and the like. The dried noodles are one of the main wheaten foods enjoyed by people all the time because of good taste, convenient eating, low price and easy storage. The dried noodles can be stored for a long time because the dried noodles have no moisture and have natural long storage time through the drying and dehydrating process. The dried noodles are noodles made from wheat flour added with salt, alkali and water, and are dried in air or in a drying room and then cut into noodles with a certain length.
When the dried noodles are processed, the dried noodles are required to be cut into noodles with a certain length by a cutting device. The dried noodles are cut off by a traditional mode of manual cutting, which wastes labor force and is low in efficiency, and the dried noodles are cut off by a machine at present.
Most of the devices for cutting off the fine dried noodles on the market adopt the knife switch type to cut off, and the knife switch type has poor cutting effect on loose noodles, can cut off a lot of broken slag, has irregular sections and influences the attractiveness and the weight of the fine dried noodles which are well bundled.
Therefore, the prior art still needs to be improved and developed.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an automatic vermicelli cutting device which aims at overcoming the defects in the prior art, and can ensure that the cut-off of the vermicelli is neat and the aim of producing unnecessary slag is not achieved.
The above technical purpose of the present invention can be achieved by the following technical solutions:
an automatic vermicelli cutting device comprises a processing platform, wherein the processing platform is provided with a conveying device for conveying vermicelli, a cutting device for cutting the vermicelli and a material separating device for separating the cut vermicelli; the conveying device comprises two groups of conveyor belt mechanisms arranged side by side, the cutting device and the distributing device are arranged between the two groups of conveyor belt mechanisms, and the cutting device comprises a saw blade used for cutting off the fine dried noodles.
Vermicelli automatic cutout device, wherein, conveyer is still including setting up the driving shaft of processing platform one end, being used for the drive driving shaft pivoted conveying driving motor and setting are in the driven shaft of the processing platform other end, conveying driving motor is through the drive the driving shaft rotation drive the motion of conveyer belt mechanism.
The automatic vermicelli cutting device is characterized in that each group of conveying belt mechanisms comprises a driving belt wheel connected to the driving shaft, a driven belt wheel connected to the driven shaft and a belt arranged between the driving belt wheel and the driven belt wheel, and a feeding hopper used for receiving and taking vermicelli and conveying the vermicelli in batches is arranged on the belt.
The automatic vermicelli cutting device is characterized in that the processing platform is provided with a front end connecting hopper in butt joint with the front end weighing equipment, a material receiving mechanism for conveying vermicelli to be processed into the feeding hopper, and a rear end connecting hopper for receiving the finished vermicelli processed in the feeding hopper and in butt joint with the rear section conveying line.
Vermicelli automatic cutout device, wherein, the upper end of processing platform is provided with connects the material stores pylon, receiving mechanism sets up connect on the material stores pylon, receiving mechanism is in including setting up connect the material cylinder on the material stores pylon and set up connect the material layer board of material cylinder front end, connect the material cylinder to be used for the drive connect the material layer board to remove, connect the material layer board setting to be in the below of front end termination hopper.
The automatic vermicelli cutting device comprises a feeding hopper, a processing platform and a feeding device, wherein the processing platform is provided with a sorting device used for sorting scattered vermicelli in the feeding hopper, the sorting device comprises two sorting mechanisms respectively arranged on two sides of the conveying device, the two sorting mechanisms respectively comprise a sorting push plate and a sorting cylinder used for driving the sorting push plate to move, and the two sorting push plates move oppositely to push the scattered vermicelli neatly.
Vermicelli automatic cutout device, wherein, the upper end of processing platform is provided with presses the material stores pylon, press and be provided with on the material stores pylon and be used for making the vermicelli by steady swager structure when cutting, swager structure include sliding connection in press the material pole subassembly of material stores pylon and be used for the drive press the pneumatic push rod that the material pole subassembly removed, press the material pole subassembly to include slide bar and depression bar, the slide bar connect in pneumatic push rod and sliding connection in press the material stores pylon, the depression bar sets up the lower extreme of slide bar and be located the side top of belt.
The automatic vermicelli cutting device comprises a cutting platform, a saw blade and a cutting driving motor, wherein the cutting device also comprises the cutting driving motor arranged at the lower end of the processing platform, and the cutting driving motor is used for driving the saw blade to rotate; and a powder absorption device for absorbing residual powder is arranged on the outer side of the saw blade.
The automatic vermicelli cutting device comprises a processing platform, wherein the processing platform is used for processing the vermicelli to be cut, the processing platform is used for processing the vermicelli, the processing platform is used for processing the.
The automatic vermicelli cutting device comprises a material distribution device and a processing platform, wherein the material distribution device comprises two groups of air cylinder material distribution mechanisms which are oppositely arranged, the two groups of air cylinder material distribution mechanisms comprise material distribution plates and material distribution air cylinders which are used for driving the material distribution plates to move, material distribution notches are formed in the processing platform, and the two material distribution plates penetrate through the material distribution notches.
To sum up, the utility model discloses following beneficial effect has:
the utility model discloses a saw bit realizes cutting off the vermicelli fast, can be applicable to scattered face and tie up the face, and the face of cutting absolutely of vermicelli is neat, has guaranteed the pleasing to the eye of vermicelli to can not produce unnecessary disintegrating slag, save raw and other materials.
Drawings
Fig. 1 is a schematic structural diagram of the whole first viewing angle in the present embodiment.
Fig. 2 is an enlarged view at a in fig. 1.
Fig. 3 is a schematic structural diagram of the second viewing angle of the whole in the present embodiment.
Fig. 4 is a schematic structural diagram of a third viewing angle of the whole in the present embodiment.
Fig. 5 is a schematic side view of the processing platform in this embodiment.
In the figure: 100. a processing platform; 110. a frame body; 120. a material receiving hanging rack; 130. a material pressing hanging rack; 200. a conveying device; 210. a conveyor belt mechanism; 211. a belt; 212. a driving pulley; 213. a driven pulley; 214. a hopper; 215. a fixing plate; 220. a drive shaft; 230. a driven shaft; 240. a conveyance drive motor; 300. a cutting device; 310. a saw blade; 320. cutting off the driving motor; 400. a material distributing device; 410. a cylinder material distribution mechanism; 411. a material distributing plate; 412. a material distributing cylinder; 420. a material distributing notch; 500. a material receiving mechanism; 510. a material receiving supporting plate; 520. a material receiving cylinder; 530. the front end is connected with a hopper; 540. the rear end is connected with a hopper; 600. a finishing device; 610. a material arranging mechanism; 611. arranging a push plate; 612. arranging an air cylinder; 700. a material pressing mechanism; 710. a swaging rod assembly; 711. a slide bar; 712. a pressure lever; 720. a pneumatic push rod; 800. a powder absorption device; 810. a cover body; 820. a negative pressure dust collector.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.
In the description of the present invention, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the interconnection of two elements or through the interaction of two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
Example (b): an automatic vermicelli cutting device, as shown in fig. 1 to 3, comprises a frame body 110 and a processing platform 100, wherein the processing platform 100 is fixed on the frame body 110 by welding or bolts, wherein the processing platform 100 is provided with a conveyer 200, a cutting device 300 and a material distributing device 400, the conveyer 200 is used for conveying vermicelli, the cutting device 300 is used for cutting the vermicelli into required length, and the material distributing device 400 is used for separating two halves of the cut vermicelli by a preset distance.
The conveying device 200 comprises two groups of conveyor belt mechanisms 210, wherein the two groups of conveyor belt mechanisms 210 are arranged side by side and can be driven to rotate by a common driving shaft, and the two groups of conveyor belt mechanisms 210 are arranged along the length direction of the processing platform 100; each set of the belt mechanisms 210 includes a belt 211, a driving pulley 212, and a driven pulley 213, as shown in fig. 2. The cutting device 300 and the material separating device 400 are both disposed between the two sets of the conveyor belt mechanisms 210, the cutting device 300 adopts, but is not limited to, a saw blade 310 for cutting the fine dried noodles, and as shown in fig. 4, the material separating device 400 is disposed as a vertical separating plate.
Adopt the cutting saw bit form in this application preferred embodiment, realize cutting off the vermicelli fast when conveying the vermicelli, compare with traditional guillotine formula segmentation mode, the cut surface is neat, has guaranteed the pleasing to the eye of vermicelli.
As shown in fig. 1 and 2, the transmission device 200 further includes a driving shaft 220, a driven shaft 230, and a transmission driving motor 240. The driving shaft 220 is arranged at one end of the processing platform 100, the driven shaft 230 is arranged at the other end of the processing platform 100, and the driving shaft 220 and the driven shaft 230 are connected to the processing platform 100 through bearing seats. The conveying driving motor 240 is used for driving the driving shaft 220 to rotate, and the conveying driving motor 240 drives the driving shaft 220 to rotate, so as to drive the conveying belt mechanism 210 to move, and the fine dried noodles are conveyed through the conveying belt mechanism 210.
Each set of the belt mechanisms 210 includes a belt 211, a driving pulley 212, and a driven pulley 213. The driving pulley 212 is connected to the driving shaft 220 through a flat key, the driven pulley 213 is pivotally connected to the driven shaft 230, the belt 211 is disposed between the driving pulley 212 and the driven pulley 213, and in this embodiment, the belt 211 is a synchronous toothed belt. The belt 211 is provided with a hopper 214 for receiving fine dried noodles, as shown in fig. 2 and 5, the hopper 214 is used for conveying fine dried noodles in batches, and can receive noodle bundles from the hopper, specifically, the belt 211 is fixedly provided with a fixing plate 215, as shown in fig. 2, the hopper 214 is fixed on the fixing plate 215 through screws and can convey noodles along with the belt 211, and meanwhile, the hopper 214 is simply disassembled and is convenient to clean.
A plurality of hoppers 214 may be provided on the belt 211 to enable pipelining. Preferably, each of the hoppers 214 is provided in a two-half structure so that the cutting device 300 cuts the noodles from the middle.
As shown in fig. 1 and 4, the cutting device 300 further includes a cutting driving motor 320 disposed at a lower end of the processing platform 100, and the cutting driving motor 320 is used for driving the saw blade 310 to rotate. The belt 211 rotates to drive the hopper 214 to move, and when the hopper 214 conveys the fine dried noodles forwards, the driving motor 320 drives the saw blade 310 to cut the fine dried noodles in the hopper 214 from two halves when the saw blade 310 passes through, so as to form two groups of fine dried noodles with required length.
Specifically, in this embodiment, the high-speed motor with the rotating speed of 8K to 12K can be selected for the cutting-off driving motor 320, the saw blade 310 is selected from the wear-resistant high-speed steel saw blade 310 with high hardness, the thickness is selected from 0.6mm, the diameter is selected from 150mm, and the number of teeth is 200. This application is through setting up the density of reasonable rotational speed and sawtooth, realizes cutting off the vermicelli fast.
As shown in fig. 3 and 5, the processing platform 100 of the present invention is further provided with a receiving mechanism 500, a front end hopper 530 and a rear end hopper 540. The front end hopper 530 is arranged in front of the processing platform 100, the front end hopper 530 can be butted with a front end weighing device, the receiving mechanism 500 is used for conveying the fine dried noodles to be processed into the feed hopper 214, the rear end hopper 540 is used for receiving the finished fine dried noodles processed in the feed hopper 214, and the rear end hopper 540 is butted with a rear section conveying line and is used for conveying the cut fine dried noodles to a next station, such as a packaging machine station.
The upper end of the processing platform 100 is provided with a material receiving rack 120, and as shown in fig. 3, the material receiving mechanism 500 is arranged on the material receiving rack 120. The receiving mechanism 500 includes a receiving cylinder 520 disposed on the receiving rack 120 and a receiving pallet 510 disposed at the front end of the receiving cylinder 520, the receiving cylinder 520 is used to drive the receiving pallet 510 to move back and forth, as shown in fig. 5, the receiving pallet 510 is disposed below the front end connecting hopper 530, and can be controlled to open or block the lower side of the front end connecting hopper 530. When the receiving tray 510 opens the passage right under the front end receiving hopper 530, the noodles can enter the hopper 214.
When receiving materials, the front-end weighing device weighs the fine dried noodles, and then the weighed fine dried noodles are conveyed to the material receiving supporting plate 510 through the front-end connecting hopper 530 by using the lifting mechanism (at this time, the material receiving supporting plate 510 is blocked below the front-end connecting hopper 530), and the material receiving supporting plate 510 temporarily holds the fine dried noodles. When the hopper 214 moves below the receiving support plate 510, the receiving cylinder 520 drives the receiving support plate 510 to retract, so that the fine dried noodles in the front end receiving hopper 530 fall into the hopper 214.
As shown in fig. 1 and 4, the processing platform 100 may further include a finishing device 600, and the finishing device 600 is used for finishing the fine dried noodles scattered in the hopper 214. The arranging device 600 comprises two arranging mechanisms 610, the two arranging mechanisms 610 are respectively arranged on two sides of the conveying device 200, each of the two arranging mechanisms 610 comprises an arranging push plate 611 and an arranging cylinder 612, the two arranging push plates 611 are oppositely arranged, the arranging cylinder 612 is used for driving the arranging push plates 611 to move along the direction perpendicular to the length direction of the belt 211, and the two arranging push plates 611 move oppositely under the action of the arranging cylinders 612, so that the fine dried noodles randomly distributed in the feeding hopper 214 are pushed and arranged towards the middle.
As shown in fig. 1 and 3, a pressing hanger 130 is disposed at an upper end of the processing platform 100, a pressing mechanism 700 is disposed on the pressing hanger 130, and the pressing mechanism 700 is used for pressing the dried noodles when the saw blade 310 cuts the dried noodles, so as to prevent the dried noodles from moving around when being cut, thereby ensuring a cutting effect.
The pressing mechanism 700 includes a pressing rod assembly 710 and a pneumatic push rod 720, the pressing rod assembly 710 is slidably connected to the pressing rack 130, and the pneumatic push rod 720 is used for driving the pressing rod assembly 710 to move. The material pressing rod assembly 710 comprises a sliding rod 711 and a pressing rod 712, the sliding rod 711 is connected to the pneumatic push rod 720, and the sliding rod 711 is slidably connected to the material pressing hanger 130. The pressing rod 712 is disposed at the lower end of the sliding rod 711, the pressing rod 712 is located above the side of the belt 211, and the pressing rod 712 is disposed along the length direction of the belt 211.
In this embodiment, the pressing mechanism 700 includes four sets of pressing rod assemblies 710, and the four sets of pressing rod assemblies 710 are correspondingly disposed above the two belts 211 in pairs, so as to make the acting force for pressing the dried noodles uniform and prevent the dried noodles from breaking during processing.
As shown in fig. 4 and 5, a powder absorption device 800 for absorbing residual powder is further disposed on an outer side of the saw blade 310, the powder absorption device 800 includes a cover 810 disposed at a lower end of the processing platform 100, the cover 810 is used for receiving the powder remaining after processing, the cover 810 is covered on the outer side of the saw blade 310, and a negative pressure cleaner 820 for sucking out debris in the cover 810 is disposed on one side of the cover 810.
Through above-mentioned powder absorbing device's setting, the vermicelli of cutting through the cutting saw bit form of this application surely can not produce unnecessary disintegrating slag, only a small amount of powder appears, the powder that produces in the cutting process pass through the suction of negative pressure dust catcher 820 can, save raw and other materials, and the clearance is convenient.
Further, as shown in fig. 3 to 5, the material distributing device 400 includes two sets of cylinder material distributing mechanisms 410 disposed oppositely, each of the two sets of cylinder material distributing mechanisms 410 includes a material distributing plate 411 and a material distributing cylinder 412 for driving the material distributing plate 411 to move, a material distributing slot 420 is disposed on the processing platform 100, the material distributing slot 420 is disposed between the two sets of conveyor belt mechanisms 210, and both the material distributing plates 411 are disposed through the material distributing slot 420.
Specifically, the two material distributing plates 411 are arranged at an interval of 1mm in an initial state, and when the dried noodles cut into two halves move between the two material distributing plates 411, the two material distributing plates 411 push the two halves of dried noodles towards two sides under the action of the material distributing cylinders 412, and in this embodiment, the two halves of dried noodles are preferably separated to be 10mm wide.
After the material distribution is completed, the hopper 214 is driven by the belt 211 to transfer the two separated dried noodles into the rear end hopper 540, and the rear end hopper 540 transfers the dried noodles after cutting and separation to the rear end conveying line for packaging.
To sum up, this application realizes cutting off the vermicelli fast through the saw bit, can be applicable to scattered face and tie up the face, and the disconnected face of cutting of vermicelli is neat, has guaranteed the pleasing to the eye of vermicelli to can not produce unnecessary disintegrating slag, save raw and other materials.
It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.
Claims (10)
1. The utility model provides a vermicelli automatic cutout device, includes processing platform, characterized by: the processing platform is provided with a conveying device for conveying fine dried noodles, a cutting device for cutting off the fine dried noodles and a material distributing device for separating the cut fine dried noodles; the conveying device comprises two groups of conveyor belt mechanisms arranged side by side, the cutting device and the distributing device are arranged between the two groups of conveyor belt mechanisms, and the cutting device comprises a saw blade used for cutting off the fine dried noodles.
2. The automatic vermicelli cutting device of claim 1, which is characterized in that: the conveying device further comprises a driving shaft arranged at one end of the machining platform, a conveying driving motor used for driving the driving shaft to rotate and a driven shaft arranged at the other end of the machining platform, and the conveying driving motor drives the driving shaft to rotate to drive the conveying belt mechanism to move.
3. The automatic vermicelli cutting device of claim 2, which is characterized in that: each group of the conveying belt mechanisms comprises a driving belt wheel connected to the driving shaft, a driven belt wheel connected to the driven shaft and a belt arranged between the driving belt wheel and the driven belt wheel, and a feeding hopper used for receiving and taking and conveying fine dried noodles in batches is arranged on the belt.
4. An automatic vermicelli cutting device according to claim 3, which is characterized in that: the processing platform is provided with a front end connecting hopper in butt joint with the front end weighing device, a material receiving mechanism for conveying the fine dried noodles to be processed into the feeding hopper, and a rear end connecting hopper for receiving the fine dried noodles processed in the feeding hopper and in butt joint with the rear section conveying line.
5. An automatic vermicelli cutting device as claimed in claim 4, which is characterized in that: the upper end of processing platform is provided with connects the material stores pylon, receiving mechanism sets up connect on the material stores pylon, receiving mechanism is in including setting up connect the material cylinder on the material stores pylon and set up connect the material layer board of material cylinder front end, connect the material cylinder to be used for the drive connect the material layer board to remove, it is in to connect the material layer board setting the below of front end termination hopper.
6. An automatic vermicelli cutting device as claimed in claim 4, which is characterized in that: the processing platform is provided with a finishing device used for finishing scattered fine dried noodles in the feeding hopper, the finishing device comprises two material arranging mechanisms which are arranged on two sides of the conveying device respectively, the two material arranging mechanisms comprise finishing push plates and finishing cylinders used for driving the finishing push plates to move, and the two finishing push plates move in opposite directions and are used for pushing the scattered fine dried noodles in order.
7. An automatic vermicelli cutting device according to claim 3, which is characterized in that: the upper end of processing platform is provided with presses the material stores pylon, be provided with on the pressure material stores pylon and be used for making the vermicelli remain stable swager structure when being cut, swager structure include sliding connection in press the material pole subassembly of material stores pylon and be used for the drive press the pneumatic push rod that the material pole subassembly removed, press the material pole subassembly to include slide bar and depression bar, the slide bar connect in pneumatic push rod and sliding connection in press the material stores pylon, the depression bar sets up the lower extreme of slide bar and be located the side top of belt.
8. The automatic vermicelli cutting device of claim 1, which is characterized in that: the cutting device also comprises a cutting driving motor arranged at the lower end of the processing platform, and the cutting driving motor is used for driving the saw blade to rotate; and a powder absorption device for absorbing residual powder is arranged on the outer side of the saw blade.
9. The automatic vermicelli cutting device of claim 8, wherein: the powder absorption device comprises a cover body arranged at the lower end of the processing platform and used for receiving and taking powder, the cover body covers the outer side of the saw blade, and a negative pressure dust collector for sucking out the crushed slag in the cover body is arranged on one side of the cover body.
10. The automatic vermicelli cutting device of claim 1, which is characterized in that: the material distributing device comprises two groups of oppositely arranged cylinder material distributing mechanisms, the two groups of cylinder material distributing mechanisms comprise material distributing plates and material distributing cylinders used for driving the material distributing plates to move, material distributing notches are formed in the processing platform, and the two material distributing plates penetrate through the material distributing notches.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201922308052.6U CN211281617U (en) | 2019-12-19 | 2019-12-19 | Automatic vermicelli cutting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201922308052.6U CN211281617U (en) | 2019-12-19 | 2019-12-19 | Automatic vermicelli cutting device |
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CN211281617U true CN211281617U (en) | 2020-08-18 |
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CN201922308052.6U Active CN211281617U (en) | 2019-12-19 | 2019-12-19 | Automatic vermicelli cutting device |
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