CN219323124U - Broken noodle cutter - Google Patents

Abstract

The utility model relates to a broken noodle cutting machine which comprises a frame, a feeding device, a receiving device, a cutting device and a control component, wherein the feeding device, the receiving device, the cutting device and the control component are all arranged on the frame. The feeding device is used for tidying fine dried noodles and pushing fine dried noodles, the receiving device is provided with a receiving port and a discharging port, the receiving port is in butt joint with an outlet of the feeding device, the cutting device is in butt joint with the discharging port and used for cutting the fine dried noodles, and the control assembly is connected with the receiving device and used for controlling the opening and closing of the discharging port. The control assembly is arranged to control the opening and closing of the discharge hole of the material receiving device, so that the amount of fine dried noodles entering the cutting device is controlled, the condition that the cutting device is blocked is avoided, and the efficiency of cutting noodles is improved.

Description

Broken noodle cutter

Technical Field

The utility model relates to fine dried noodle processing equipment, in particular to a broken noodle cutting machine.

Background

Nowadays, with the continuous improvement of the living standard of people, the demands of people on the types of fine dried noodles are increasing, and the common fine dried noodles on the market at present comprise longer conventional fine dried noodles and broken fine dried noodles specially used for infants.

When the broken noodles are processed, the fine dried noodles are required to be cut into short broken noodles, the conventional mode is to manually cut the short broken noodles, the efficiency is low, a plurality of broken noodles are easy to cut, and the cuts are not neat.

The Chinese patent of patent number 201922308052.6 discloses an automatic cutting device for fine dried noodles, which discloses a technical concept that noodles are conveyed to a cutting device through a conveying belt mechanism. However, due to the limitation of the prior equipment, when noodles are cut, the continuous feeding mode is adopted for cutting, and the problem of noodle clamping is easy to occur.

Accordingly, there is a need for improvements and developments in the art.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide a broken noodle cutting machine which is used for solving the technical problem that the conventional noodle cutting machine is easy to clamp noodles.

The technical scheme adopted by the utility model for solving the problems is as follows:

a shredded noodle cutter, comprising:

a frame;

the feeding device is arranged on the frame and is used for tidying fine dried noodles and pushing the fine dried noodles;

the material receiving device is arranged on the frame and is provided with a material receiving port and a material discharging port, and the material receiving port is in butt joint with an outlet of the feeding device;

the cutting device is arranged on the frame, is in butt joint with the discharge port and is used for cutting fine dried noodles;

and the control assembly is connected with the receiving device and used for controlling the opening and closing of the discharge hole.

Optionally, the receiving device includes:

the switching hopper is arranged on the frame and is positioned in the outlet direction of the feeding device; the material receiving opening is formed on one side, opposite to the feeding device, of the transfer hopper; the discharging hole is formed on the other side of the transfer hopper;

the two blocking sheets are rotatably connected with the transfer hopper and are oppositely arranged at two sides of the discharge port and used for opening and closing the discharge port; and

and one end of the transmission component is electrically connected with the control component, and the other end of the transmission component is in transmission connection with the two blocking sheets.

Optionally, the transmission assembly includes:

the rotary electromagnet is connected with the control assembly;

the first gear is arranged on the transfer hopper and is in transmission connection with the rotary electromagnet;

the second gear is arranged on the transfer hopper and meshed with the first gear;

wherein the first gear and the second gear are respectively connected with the two blocking sheets.

Optionally, the first gear and the second gear are sector gears.

Optionally, the control assembly includes;

the weight sensor is arranged on the switching hopper;

and the input end of the control chip is connected with the weight sensor, and the output end of the control chip is connected with the rotary electromagnet.

Optionally, the feeding device includes:

the sliding connection mechanism is arranged on the rack;

the sorting bin is slidably arranged on the sliding connection mechanism;

the driving motor is arranged on the frame;

one end of the eccentric shaft assembly is connected with the driving motor, and the other end of the eccentric shaft assembly is connected with the sorting bin and used for dragging the sorting bin to move;

and the vibration plate is in butt joint with the outlet of the sorting bin.

Optionally, the feeding device includes:

the blanking swing door is arranged above the vibration plate and is used for pushing the fine dried noodles out of the vibration plate;

and the pushing motor is electrically connected with the control assembly and used for controlling the swing of the blanking swing door.

Optionally, the bottom surface of arrangement feed bin sets up to towards the inclined plane of arrangement feed bin's exit direction slope, the interval is provided with a plurality of L template on the inclined plane, forms the platform of stairstepping.

Optionally, the cutting device includes:

a sheave arranged on the frame; the grooved wheel is arranged opposite to the discharge hole;

the rotating shaft is axially parallel to the grooved pulley;

the saw blades are arranged on the rotating shaft at intervals;

the spacer bushes are arranged on the rotating shaft; the spacer bush is positioned between the two saw blades and is used for adjusting the distance between the two adjacent saw blades.

Optionally, the cutting device includes:

the rotating wheel is sleeved on the rotating shaft of the grooved wheel;

the stirring piece is in transmission connection with the rotating wheel;

and the rotating motor is connected with the stirring piece and drives the stirring piece to rotate.

In summary, the beneficial effects of the utility model are as follows:

according to the utility model, the fine dried noodles are conveyed into the material receiving device through the material feeding device, when the fine dried noodles in the material receiving device reach the preset amount, the control component controls the discharge port of the material receiving device to be opened, the fine dried noodles in the material receiving device enter the cutting device, the cutting device cuts the fine dried noodles, and the control component controls the opening and closing of the discharge port of the material receiving device, so that the amount of fine dried noodles fed into the cutting device and the interval time of feeding the fine dried noodles are controlled, the condition that the clamping surfaces occur in the cutting device due to excessive one-time cutting amount or too short time interval of two times cutting are avoided, the trimming of the cutting surfaces of the fine dried noodles is ensured, and meanwhile, the efficiency of cutting surfaces is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will briefly explain the embodiments or the drawings needed in the prior art, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a broken surface cutter according to the present utility model;

FIG. 2 is a schematic structural view of a receiving device of the crushed surface cutter of the utility model;

FIG. 3 is a schematic structural view of a feeding device of the crushed surface cutter of the utility model;

FIG. 4 is a schematic view of the structure of the cutting device of the broken surface cutter of the present utility model.

Wherein: 100. a feeding device; 110. a sliding connection mechanism; 120. sorting a storage bin; 130. a driving motor; 140. an eccentric shaft assembly; 150. a vibration plate; 160. a blanking swing door; 170. a pushing motor; 200. a receiving device; 210. a transfer hopper; 220. a barrier sheet; 230. a transmission assembly; 231. rotating the electromagnet; 232. a first gear; 233. a second gear; 300. a cutting device; 310. a sheave; 320. a rotating shaft; 330. a saw blade; 340. a rotating wheel; 350. a toggle member; 400. a control assembly; 410. a weight sensor.

Detailed Description

In order to enable those skilled in the art to better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. Based on the embodiments of the present utility model, other embodiments that may be obtained by those of ordinary skill in the art without making any inventive effort are within the scope of the present utility model.

Referring to fig. 1, the present utility model provides a broken noodle cutter, which includes a frame, a feeding device 100, a receiving device 200, a cutting device 300 and a control assembly 400. The feeding device 100, the receiving device 200, the cutting device 300 and the control assembly 400 are all arranged on the frame. The feeding device 100 is used for tidying fine dried noodles and pushing fine dried noodles, the receiving device 200 is provided with a receiving port and a discharging port, the receiving port is in butt joint with an outlet of the feeding device 100, the cutting device 300 is in butt joint with the discharging port and used for cutting fine dried noodles, and the control assembly 400 is connected with the receiving device 200 and used for controlling opening and closing of the discharging port.

The broken noodle cutter disclosed in this embodiment is provided with a feeding device 100, a receiving device 200, a cutting device 300 and a control component 400, fine dried noodles are put into the feeding device 100, the feeding device 100 is used for finishing the fine dried noodles and feeding the fine dried noodles into the receiving device 200, when the fine dried noodles in the receiving device 200 reach a preset amount, the control component 400 is used for controlling the discharge hole of the receiving device 200 to be opened, the fine dried noodles in the receiving device 200 enter the cutting device 300, and the cutting device 300 is used for cutting the fine dried noodles. After the fine dried noodles in the material receiving device 200 completely enter the cutting device 300, the control assembly 400 controls the discharge hole of the material charging device to be closed, material receiving is performed again, and the next working period is entered.

That is, the broken noodle cutter disclosed in this embodiment performs periodic work, rather than continuously feeding into the cutter 300. After the cutting device 300 completes the cutting operation of the previous cycle, the receiving device 200 will send the fine dried noodles into the cutting device 300 again. The broken noodle cutter disclosed in this embodiment intermittently feeds the fine dried noodles into the cutting device 300, so that the problem of noodle clamping caused by too large amount of the fine dried noodles to be cut or too short time of the interval between two times of cutting is avoided, the working efficiency of the noodle cutting is improved, and a better noodle cutting effect is achieved.

Referring to fig. 2, the receiving device 200 in the present embodiment includes a transfer hopper 210, two blocking plates 220 and a transmission assembly 230. The transfer hopper 210 is arranged on the frame and is positioned in the outlet direction of the feeding device 100, a material receiving opening is formed on one side of the transfer hopper 210 opposite to the feeding device 100, a material outlet is formed on the other side of the transfer hopper 210, two blocking sheets 220 are rotatably connected with the transfer hopper 210 and are oppositely arranged on two sides of the material outlet for opening and closing the material outlet, one end of a transmission assembly 230 is electrically connected with a control assembly 400, and the other end of the transmission assembly is in transmission connection with the two blocking sheets 220.

In this embodiment, the control assembly 400 controls the transmission assembly 230, the transmission assembly 230 drives the two blocking sheets 220 to rotate respectively until the two blocking sheets abut against each other, the discharge opening is closed, the fine dried noodles sent out by the feeding device 100 enter the transfer hopper 210 from the material receiving opening of the transfer hopper 210, when the amount of fine dried noodles reaches a preset value, the two blocking sheets 220 rotate downwards to be away from each other, the discharge opening is opened, and the fine dried noodles are sent out from the discharge opening into the cutting device 300. The opening and closing of the discharge hole is controlled by the two rotatable blocking sheets 220, and when the two blocking sheets 220 rotate downwards to be far away from each other, fine dried noodles on the blocking sheets 220 fall into the cutting device 300 completely due to the action of gravity, so that the phenomenon that part of fine dried noodles remain on the blocking sheets 220 can be effectively avoided, and the working efficiency is improved.

Specifically, the transmission assembly 230 disclosed in the present embodiment includes a rotary electromagnet 231, a first gear 232, and a second gear 233. The rotary electromagnet 231 is connected with the control assembly 400, the first gear 232 is arranged on the transfer hopper 210 and is in transmission connection with the rotary electromagnet 231, the second gear 233 is arranged on the transfer hopper 210 and is meshed with the first gear 232, and the first gear 232 and the second gear 233 are respectively connected with the two blocking pieces 220. In this embodiment, the control assembly 400 controls the rotary electromagnet 231 to rotate, the rotary electromagnet 231 drives the first gear 232 to rotate, the first gear 232 drives the second gear 233 to rotate, and the first gear 232 and the second gear 233 respectively drive the two blocking pieces 220 to rotate. Because the first gear 232 is meshed with the second gear 233, the two gears rotate in opposite directions, so that the two blocking sheets 220 rotate in opposite directions to realize opening and closing of the discharge hole. The first gear 232 and the second gear 233 are utilized to respectively drive the blocking piece 220 to open and close, so that the structure is simple, the stability and the synchronism of the rotation of the blocking piece 220 are ensured, and the service life of the transfer hopper 210 is prolonged.

Note that, in this embodiment, the first gear 232 and the second gear 233 are sector gears. Because the blocking piece 220 does not need a large rotation angle, the sector gear is lighter and more convenient to maintain in the later period, and the cost is saved.

Specifically, the control assembly 400 includes a weight sensor 410 and a control chip, the weight sensor 410 is disposed on the adapting hopper 210, an input end of the control chip is connected to the weight sensor 410, and an output end of the control chip is connected to the rotary electromagnet 231.

In this embodiment, the weight sensor 410 is disposed on the transfer hopper 210, when the weight sensor 410 detects that the fine dried noodles in the transfer hopper 210 reach the preset weight, the weight sensor 410 sends an opening signal to the control chip, the control chip controls the rotary electromagnet 231 to rotate, the rotary electromagnet 231 drives the first gear 232 to rotate, meanwhile, the first gear 232 drives the second gear 233 to rotate, the discharge port is opened, when the weight sensor 410 detects that the weight of the fine dried noodles in the transfer hopper 210 is zero, a closing signal is sent to the control chip, the control chip controls the rotary electromagnet 231 to rotate reversely, the rotary electromagnet 231 drives the first gear 232 to rotate, and meanwhile, the first gear 232 drives the second gear 233 to rotate, and the discharge port is closed. By providing the weight sensor 410, the amount of fine dried noodles in the transfer hopper 210 can be precisely controlled, so that excessive or insufficient amount of fine dried noodles entering the cutting device 300 each time can be avoided, the condition of clipping the noodles can be avoided, and the working efficiency can be improved.

Referring to fig. 3, the feeding device 100 in this embodiment includes a sliding connection mechanism 110, a sorting bin 120, a driving motor 130, an eccentric shaft assembly 140, and a vibration plate. The sliding connection mechanism 110 is arranged on the frame, the sorting bin 120 is slidably arranged on the sliding connection mechanism 110, the driving motor 130 is arranged on the frame, one end of the eccentric shaft assembly 140 is connected with the driving motor 130, the other end of the eccentric shaft assembly is connected with the sorting bin 120 and used for dragging the sorting bin 120 to move, and the vibrating plate 150 is in butt joint with an outlet of the sorting bin 120. The driving motor 130 is connected with the eccentric shaft assembly 140, and the eccentric shaft assembly 140 drives the sorting bin 120 to reciprocate on the sliding connection mechanism 110.

In the present embodiment, the eccentric shaft assembly 140 is provided with an eccentric shaft and a driving link. The eccentric shaft is connected with a driving motor 130, one end of the driving connecting rod is connected with the eccentric shaft, and the other end is connected with the sorting bin 120. The driving motor 130 drives the eccentric shaft to rotate, the eccentric shaft drives the driving connecting rod to reciprocate, the driving connecting rod drives the sorting bin 120 to move, fine dried noodles in the sorting bin 120 are tidily pushed in the sorting bin, the fine dried noodles enter the vibration plate 150, the vibration plate 150 vibrates, the fine dried noodles are further thinned, the pushing amount of the fine dried noodles is conveniently and subsequently controlled, the sorting bin 120 is arranged on the sliding connection mechanism 110, the sorting bin 120 is more stable in reciprocating movement, and the pushing amount of the fine dried noodles is more uniform.

Specifically, the feeding device 100 includes: the blanking swing door 160 and the pushing motor 170, the blanking swing door 160 is arranged above the vibration plate 150 and used for pushing fine dried noodles out of the vibration plate 150, and the pushing motor 170 is electrically connected with the control assembly 400 and used for controlling the blanking swing door 160 to swing. When the control assembly 400 detects that the discharge hole of the transfer hopper 210 is completely closed, the control assembly 400 controls the pushing motor 170, the pushing motor 170 is started to drive the blanking swing door 160 to swing, fine dried noodles on the vibration plate 150 are pushed into the transfer hopper 210, and when the control assembly 400 detects that fine dried noodles in the transfer hopper 210 reach the preset weight, the control assembly 400 controls the pushing motor 170 to stop, and the blanking swing door 160 stops swinging. By providing the blanking swing door 160, the amount of fine dried noodles pushed into the transfer hopper 210 can be controlled more accurately.

In this embodiment, the bottom surface of the sorting bin 120 is configured as an inclined surface inclined toward the outlet direction of the sorting bin 120, and a plurality of L-shaped plates are disposed on the inclined surface at intervals to form a stepped platform. The arrangement of the inclined plane enables fine dried noodles to be better pushed along the direction of the outlet when the sorting bin 120 reciprocates, and the stepped platform can effectively prevent the fine dried noodles from being accumulated in a large quantity at the lower part of the inclined plane, so that the pushing effect of the fine dried noodles is affected.

Referring to fig. 4, the cutting device 300 in the present embodiment includes a sheave 310, a shaft 320, a plurality of saw blades 330 and a plurality of spacers. The grooved wheel 310 is arranged on the frame, is opposite to the discharge hole of the transfer hopper 210, the rotating shaft 320 is axially parallel to the grooved wheel 310, the plurality of saw blades 330 are arranged on the rotating shaft 320 at intervals, the plurality of spacers are arranged on the rotating shaft 320, and the spacers are positioned between the two saw blades 330 and used for adjusting the interval between the two adjacent saw blades 330.

In this embodiment, the saw blades 330 are arranged on the rotating shaft 320 at intervals, the rotating shaft 320 is parallel to the axial direction of the grooved pulley 310, when the fine dried noodles are required to be cut, the grooved pulley 310 rotates to push the fine dried noodles on the grooved pulley 310 towards the direction of the saw blades 330, the saw blades 330 cut the fine dried noodles into a plurality of parts, and the distance between the two saw blades 330 is limited by the distance between the two saw blades 330, that is, the length of the fine dried noodles after being cut is limited by the arrangement of the distance sleeve, and the fine dried noodles with different lengths can be cut only by replacing the distance sleeve with different lengths, so that the application range of the broken noodle cutting machine is enlarged.

Specifically, the cutting device 300 includes a rotating wheel 340, a toggle member 350, and a rotating motor. The rotating wheel 340 is sleeved on the rotating shaft of the grooved wheel 310, the stirring piece 350 is in transmission connection with the rotating wheel 340, and the rotating motor is connected with the stirring piece 350 to drive the stirring piece 350 to rotate. In this embodiment, arc grooves matched with the stirring members 350 are arranged at intervals in the circumferential direction of the rotating wheel 340, and the stirring members 350 are propped against the grooves. The rotating motor drives the stirring piece 350 to rotate, the stirring piece 350 stirs the rotating wheel 340 to rotate by a specific angle, the rotating wheel 340 drives the grooved wheel 310 to rotate, and the grooved wheel 310 rotates the fine dried noodles towards the direction of the saw blade 330, so that fine dried noodles are cut.

In this embodiment, the periphery of the sheave 310 is provided with a cutting rotor groove extending axially along the sheave 310, and when the fine dried noodles enter the cutting rotor groove, the motor is rotated to drive the toggle member 350. The toggle piece 350 toggles the rotating wheel 340 to drive the grooved wheel 310 to rotate 1/4 turn, so that the fine dried noodles in the cut-off rotating wheel groove are turned to the saw blade 330, and cutting is completed. The rotation angle of the grooved pulley 310 can be controlled more accurately by driving the grooved pulley 310 to rotate through the stirring piece 350, and the grooved pulley 310 can rotate only when the grooved pulley 310 needs to be cut, so that the service life of the grooved pulley 310 is prolonged, and the cost is reduced.

To sum up, in the broken noodle cutter of this embodiment, the noodle sorting bin 120 is tidy and pushes the dried noodles, the dried noodles are further thinned by the vibration plate 150, then the discharging swinging door 160 pushes the dried noodles on the vibration plate 150 into the transfer hopper 210 by swinging, when the weight sensor 410 detects that the amount of the dried noodles in the transfer hopper 210 reaches the preset value, a signal is transmitted to the control chip, the control chip controls the rotating electromagnet 231 to rotate, the rotating electromagnet 231 controls the blocking piece 220 to open the discharge hole through the first gear 232 and the second gear 233, the dried noodles enter the cutting device 300, the rotating motor drives the stirring piece 350, and the grooved wheel 310 is driven to rotate by stirring the rotating wheel 340, so that the dried noodles in the grooved wheel groove are cut off by the turning saw, and the cutting of the dried noodles is completed. The broken noodle cutter of this embodiment is through setting up control assembly 400, the vermicelli volume that gets into in the cutting device of control that can be accurate to coordinate the cooperation between each device, improved the cutting efficiency of vermicelli when having solved cutting device card face problem.

It should be noted that, without conflict, the embodiments and features of the embodiments in the present application may be combined with each other.

The utility model is described by taking the broken surface cutting machine as an example to describe the specific structure and the working principle of the utility model, but the application of the utility model is not limited by the broken surface cutting machine, and the utility model can also be applied to the production and the use of other similar workpieces.

It is to be understood that the utility model is not limited in its application to the examples described above, but is capable of modification and variation in light of the above teachings by those skilled in the art, and that all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (10)

1. A shredded noodle cutter, comprising:

a frame;

the feeding device is arranged on the frame and is used for tidying fine dried noodles and pushing the fine dried noodles;

the material receiving device is arranged on the frame and is provided with a material receiving port and a material discharging port, and the material receiving port is in butt joint with an outlet of the feeding device;

the cutting device is arranged on the frame, is in butt joint with the discharge port and is used for cutting fine dried noodles;

and the control assembly is connected with the receiving device and used for controlling the opening and closing of the discharge hole.

2. The crushed-surface cutter of claim 1, wherein the receiving device comprises:

the switching hopper is arranged on the frame and is positioned in the outlet direction of the feeding device; the material receiving opening is formed on one side, opposite to the feeding device, of the transfer hopper; the discharging hole is formed on the other side of the transfer hopper;

the two blocking sheets are rotatably connected with the transfer hopper and are oppositely arranged at two sides of the discharge port and used for opening and closing the discharge port; and

and one end of the transmission component is electrically connected with the control component, and the other end of the transmission component is in transmission connection with the two blocking sheets.

3. The shredded surface cutter of claim 2 wherein the transmission assembly includes:

the rotary electromagnet is connected with the control assembly;

the first gear is arranged on the transfer hopper and is in transmission connection with the rotary electromagnet;

the second gear is arranged on the transfer hopper and meshed with the first gear;

wherein the first gear and the second gear are respectively connected with the two blocking sheets.

4. A crushed surface cutter according to claim 3, wherein the first gear and the second gear are sector gears.

5. A shredded surface cutter according to claim 3 wherein the control assembly comprises;

the weight sensor is arranged on the switching hopper;

and the input end of the control chip is connected with the weight sensor, and the output end of the control chip is connected with the rotary electromagnet.

6. The crushed-surface cutter of claim 1, wherein the feeding device comprises:

the sliding connection mechanism is arranged on the rack;

the sorting bin is slidably arranged on the sliding connection mechanism;

the driving motor is arranged on the frame;

one end of the eccentric shaft assembly is connected with the driving motor, and the other end of the eccentric shaft assembly is connected with the sorting bin and used for dragging the sorting bin to move;

and the vibration plate is in butt joint with the outlet of the sorting bin.

7. The crushed-surface cutter of claim 6, wherein the feeding device comprises:

the blanking swing door is arranged above the vibration plate and is used for pushing the fine dried noodles out of the vibration plate;

and the pushing motor is electrically connected with the control assembly and used for controlling the swing of the blanking swing door.

8. The broken noodle cutter according to claim 6, wherein the bottom surface of the sorting bin is provided with an inclined surface inclined toward the outlet direction of the sorting bin, and a plurality of L-shaped plates are arranged on the inclined surface at intervals to form a stepped platform.

9. The crushed-surface cutter of claim 1, wherein the cutting device includes:

a sheave arranged on the frame; the grooved wheel is arranged opposite to the discharge hole;

the rotating shaft is axially parallel to the grooved pulley;

the saw blades are arranged on the rotating shaft at intervals;

the spacer bushes are arranged on the rotating shaft; the spacer bush is positioned between the two saw blades and is used for adjusting the distance between the two adjacent saw blades.

10. The crushed-surface cutter of claim 9, wherein the cutting device includes:

the rotating wheel is sleeved on the rotating shaft of the grooved wheel;

the stirring piece is in transmission connection with the rotating wheel;

and the rotating motor is connected with the stirring piece and used for driving the stirring piece to rotate.

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