CN220000590U - Noodle cutting device - Google Patents

Abstract

A noodle cutting device. The device comprises: the transmission component is suitable for receiving a transmission control signal and transmitting the face belt based on the transmission control signal; the cutting assembly comprises a cutter and a cutter driving module, wherein the cutter driving module is suitable for receiving a cutter driving signal and driving the cutter to move up and down based on the cutter driving signal so as to cut off the noodle belt transmitted on the transmission assembly and obtain cut noodles; the blocking assembly is suitable for receiving blocking control signals and separating the cut noodles on the transmission assembly based on the blocking control signals; the collecting assembly is positioned at one end of the conveying structure and is suitable for collecting the separated noodles; and the control assembly is suitable for generating the transmission control signal, the cutter driving signal and the blocking control signal so as to control the actions of the transmission mechanism, the cutting assembly and the blocking assembly. By adopting the scheme, the noodles with shorter length can be obtained.

Description

Noodle cutting device

Technical Field

The utility model relates to the technical field of food processing, in particular to a noodle cutting device.

Background

Instant noodles, instant noodles and the like, are a flour food which can be soaked and cooked with hot water for eating in a short time. Specifically, the instant noodles comprise a cake and seasonings. The cake is prepared by steaming and frying shredded noodles to obtain noodles with fixed shape. Before eating, the instant noodle cake is brewed with boiled water, the seasonings are dissolved, and the noodle cake is heated and brewed for eating in a specified time.

The conventional flour cake for instant noodles is formed by cutting noodles by rotating a cutting knife. In the cake, the length of each noodle is longer and can reach 50cm.

Currently, there is an increasing demand for short noodle (e.g., 1 cm) tortillas. However, by cutting the noodles by rotating the cutter blade, noodles having a short length cannot be obtained.

Disclosure of Invention

The utility model aims to solve the problems that: how to cut the noodles to obtain noodles of shorter length.

To solve the above problems, an embodiment of the present utility model provides a noodle cutting device, including:

the transmission component is suitable for receiving a transmission control signal and transmitting the face belt based on the transmission control signal;

the cutting assembly comprises a cutter and a cutter driving module, wherein the cutter driving module is suitable for receiving a cutter driving signal and driving the cutter to move up and down based on the cutter driving signal so as to cut off the noodle belt transmitted on the transmission assembly, and cut off noodle is obtained;

the blocking assembly is suitable for receiving blocking control signals and separating the cut noodles on the transmission assembly based on the blocking control signals;

the collecting assembly is positioned at one end of the conveying structure and is suitable for collecting the separated noodles;

and the control assembly is connected with the transmission assembly, the cutting assembly and the blocking assembly and is suitable for generating the transmission control signal, the cutter driving signal and the blocking control signal so as to control the actions of the transmission mechanism, the cutting assembly and the blocking assembly.

Optionally, the transmission assembly is a retractable conveyor assembly.

Optionally, the retractable conveyor belt assembly comprises:

a conveyor belt having a conveying surface adapted to convey the belt;

and a transmission driving module adapted to receive the transmission control signal to drive the conveyor belt.

Optionally, the transmission driving module includes:

a support frame;

the first driving motor and the second driving motor are fixed on the supporting frame;

and a plurality of rolling members connected to the first driving motor and the second driving motor;

wherein the first drive motor is adapted to drive the movement of the rolling elements to move the conveyor belt around the rolling elements; the second driving motor is suitable for driving the rolling element to move so as to shorten or increase the length of the conveying surface.

Optionally, the rolling element includes: the driving wheel, the driven wheel, the adjusting wheel and the positioning wheel; the driving wheel is connected with the first driving motor, and the driven wheel and the adjusting wheel are connected with the second driving motor.

Optionally, the apparatus further comprises: the base, the support frame and separation subassembly, collection subassembly are all fixed on the base.

Optionally, the blocking component is a stacking cylinder.

Optionally, the cutting assembly further comprises: the protection plates are fixed on two sides of the cutter; the cutter driving module is suitable for driving the cutter head of the cutter to extend out of the protection plate so as to cut off the surface belt transmitted by the transmission assembly.

Optionally, the length of the severed noodles is less than 2cm.

Optionally, the collection assembly comprises a funnel and a container.

Compared with the prior art, the technical scheme of the embodiment of the utility model has the following advantages:

by applying the scheme of the utility model, the cutter driving module can drive the cutter to move up and down to cut off the noodles transmitted by the transmission assembly, the noodles are cut off in a mode of rotating the cutting cutter, and the frequency of the upward and downward movement of the cutter can be controlled according to the requirement, so that the length of the cut noodles can be shorter.

Further, the telescopic conveyor belt assembly is adopted as a transmission assembly, and the length of the conveying surface of the telescopic conveyor belt assembly can be changed by controlling the telescopic conveyor belt assembly to stretch or reset, so that the weight of each flour cake can be controlled more accurately, and mass production is realized.

Further, the protection plates are arranged on two sides of the cutter, and the cutter driving module drives the cutter head of the cutter to extend out of the protection plates so as to cut off noodles transmitted by the transmission assembly, so that the splashing phenomenon of the cut noodles can be reduced, the weight of each noodle cake can be controlled more accurately, and mass production is facilitated.

Drawings

Fig. 1 is a schematic view showing a structure of a noodle cutting device according to an embodiment of the present utility model;

fig. 2 is a schematic view showing the structure of another noodle cutting device according to the embodiment of the present utility model.

Detailed Description

At present, the noodles are cut off mainly by rotating the cutting knife, but the noodles with a certain length are released during the rolling of the knife head, so that the noodles with a shorter length cannot be obtained, and the requirements of short noodle cakes are difficult to meet.

In order to solve the problems, the utility model provides a noodle cutting device, in which a cutter driving module can drive a cutter to move up and down to cut noodles transmitted by a transmission assembly, the noodle is cut by rotating a cutting cutter, and the frequency of the upward and downward movement of the cutter can be controlled according to the need, so that the length of the cut noodles can be shorter.

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model briefly described above will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Referring to fig. 1, an embodiment of the present utility model provides a noodle cutting device, which may include: a conveying component 11, a cutting component 12, a blocking component 13, a collecting component 14 and a control component 15. Wherein:

the transmission component 11 is adapted to receive a transmission control signal and transmit the face belt based on the transmission control signal;

the cutting assembly 12 comprises a cutter and a cutter driving module, wherein the cutter driving module is suitable for receiving a cutter driving signal and driving the cutter to move up and down based on the cutter driving signal so as to cut off the surface belt transmitted by the transmission assembly;

the blocking component 13 is suitable for receiving a blocking control signal and separating the cut noodles on the transmission component 11 based on the blocking control signal;

the collecting component 14 is positioned at one end of the conveying structure and is suitable for collecting the separated noodles;

the control component 15 is connected with the transmission component 11, the cutting component 12 and the blocking component 13, and is adapted to generate the transmission control signal, the cutter driving signal and the blocking control signal so as to control the actions of the transmission component 11, the cutting component 12 and the blocking component 13.

In particular implementations, control component 15 may receive user input information and generate corresponding control signals based on the user input information. Specifically, the user can control the transmission speed of the transmission component against the face belt by inputting information, and the control component 15 generates a transmission control signal indicating the transmission speed of the face belt so that the transmission component 11 can transmit the face belt in accordance with the user's input. The user may also input information about the frequency of movement of the tool drive module based on the speed of the belt against the belt by the transmission assembly, and the control assembly 15 may generate a tool drive signal indicative of the frequency of movement of the tool drive module such that the tool drive module moves up and down according to the set operating frequency. The user may also input blocking frequency information, and the control component 15 generates a corresponding blocking control signal based on the blocking frequency information to control the blocking frequency of the non-cut-surface band by the blocking component.

In particular implementations, the knife driving module drives the knife down until the belt conveyed on the conveyor assembly is cut off, after which the knife driving module drives the knife up. By controlling the frequency of movement of the cutter drive module, the length of the cut strip of tape can be controlled. For example, the frequency of movement of the cutter drive module may be controlled to be 10 cutters/second, at which time the length of the facer strip is about 1cm.

In the implementation, in order to accurately fall into the collection assembly with a noodless, still need to make the separation with every certain weight noodless, set up the separation that the separation subassembly separated noodless after on the transmission assembly, specifically, the separation subassembly can be according to the separation frequency of settlement, up-and-down motion. When the barrier component descends, the cut noodles can be prevented from advancing, the cut noodles are piled up until reaching the preset weight, and then the barrier component is lifted, so that the separated noodles move to one end of the conveying component and fall into the collecting component by means of inertia and dead weight. The barrier component repeatedly descends and ascends, so that the weight of the noodles falling into the collecting component is basically the same every time, and therefore the gram weight of each cake can be ensured to be uniform.

In particular implementations, the transmission component may be implemented in a variety of configurations, without limitation.

In one embodiment of the utility model, the transport assembly may be a retractable conveyor assembly. The telescopic conveyor belt assembly, i.e. the conveyor belt assembly whose front end (in the direction of transport) can be shortened or lengthened. When the front end is shortened, the conveying surface length of the conveyor belt is reduced. When the front end is extended, the conveying surface length of the conveyor belt increases.

Through setting up transmission component for scalable conveyer belt subassembly, can further accurate control at every turn fall into the noodless weight in the collection subassembly, further guarantee that the gram weight of every portion cake is even.

Fig. 2 is a simplified schematic diagram of a dough strip cutting apparatus in accordance with one embodiment of the present utility model. Referring to fig. 2, the transmission assembly may be a retractable conveyor belt assembly including a conveyor belt 211 and a transmission drive module. The conveyor belt 211 has a conveying surface adapted to convey the belt. As shown in fig. 2, the face belt 20 is conveyed in the direction F1 on the conveying surface. The transmission driving module may receive the transmission control signal to drive the conveyor belt. The retractable conveyor assembly may allow the conveyor 211 to retract and extend from side to side, thereby changing the length of the conveying surface.

In particular implementations, referring to fig. 2, the knife may be lowered in the direction F2 to sever the band 20. The barrier assembly 22 may be lowered in the direction F3 to separate the severed noodles. After the barrier assembly 22 is raised, the separated noodles will fall from the second end of the conveyor belt 211 into the collection assembly 24.

In a specific implementation, the control component can send a transmission control signal to the transmission driving module so as to control the movement direction and speed of the conveyor belt. The moving direction and speed of the conveyor belt can be specifically set by combining the moving frequency of the cutter driving module and the length of noodles required by the dough cake.

In a specific implementation, the transmission driving module may have various structures, which are not limited herein.

In an embodiment of the present utility model, the transmission driving module includes:

a support frame;

the first driving motor and the second driving motor are fixed on the supporting frame;

and a plurality of rolling elements connected with the first driving motor and the second driving motor;

wherein the first drive motor is adapted to drive the movement of the rolling elements to move the conveyor belt around the rolling elements; the second driving motor is suitable for driving the rolling element to move so as to shorten or increase the length of the conveying surface of the conveying belt.

In a specific implementation, the first driving motor can drive the rolling element to rotate according to a set speed and a set direction under the control of the control assembly, so that the conveyor belt moves around the rolling element. The second driving motor can drive the rolling element to move left and right under the control of the control assembly when the second driving motor needs to stretch out and draw back, so that the length of the conveying surface of the conveying belt is shortened or increased.

In an embodiment of the present utility model, referring to fig. 2, the rolling member may include: a driving wheel 212, a driven wheel 213, an adjusting wheel 214 and a positioning wheel 215; the driving wheel 212 is connected with the first driving motor, and the driven wheel 213 and the adjusting wheel 214 are connected with the second driving motor.

Specifically, the driving wheel 212, the driven wheel 213, the adjusting wheel 214 and the positioning wheel 215 are all located on the supporting frame. The driving pulley 212 is located at a first end of the conveyor belt 21 and the driven pulley 213 is located at a second end of the conveyor belt 21, the first end of the conveyor belt 21 being opposite the second end. The positioning wheel 215 is located between the driving wheel 212 and the driven wheel 213. In the extended state, the regulating wheel 214 is located between the driving wheel 212 and the driven wheel 213.

In an implementation, the motor shaft of the first drive motor may be coupled to the drive wheel 212. After the first driving motor is started, the driving wheel 212 is driven to rotate, so that the driving wheel 213, the adjusting wheel 214 and the positioning wheel 215 are driven to rotate by the conveying belt 21, and the conveying belt 21 moves around the driving wheel 212, the driving wheel 213, the adjusting wheel 214 and the positioning wheel 215.

In a specific implementation, the support frame may be provided with a moving track of the driven wheel 213 and the adjusting wheel 214. The motor shaft of the second drive motor is connected with the driven wheel 213 and the adjusting wheel 214 through a transmission member. After the second driving motor is started, the driven wheel 213 and the adjusting wheel 214 are driven to move in the corresponding tracks by the transmission part, so that the length of the conveying surface of the conveying belt is changed. For example, the length of the conveying surface of the conveyor belt may be increased or the length of the conveying surface of the conveyor belt may be shortened.

In an embodiment of the present utility model, the noodle cutting device may further include: a base. The support frame and the separation component and the collection component can be fixed on the base.

In practice, the belt is cut on a conveyor belt, which may be a food-grade belt, and is capable of withstanding moving shear forces.

In practical application, when the cutter is used for cutting the flour dough, along with the lifting of the cutting speed, the cut flour dough often splashes out along with the lifting of the blade, so that the weight of each flour cake is different, and finally, the energy production is not realized.

To this end, in an embodiment of the present utility model, the cutting assembly may further include: and (5) protecting the plate. The protection plates may be fixed to both sides of the cutter. The cutter driving module is suitable for driving the cutter head of the cutter to extend out of the protection plate so as to cut off the surface belt transmitted by the transmission assembly. Therefore, only the cutter head can extend out of the protection plate to cut off noodles, and the cutter head is retracted, so that the cutter head is prevented from being stuck with noodles to affect cutting off again.

In an embodiment of the present utility model, the cooked noodle strings may be cut into small pieces of noodles smaller than 2cm by a high-speed cutter, for example, the cut noodle strings may be cut into small pieces of noodles of about 1cm.

In an implementation, the barrier assembly 22 may be a stacking cylinder. The stacking cylinder can receive the blocking control signal sent by the control assembly, so that the cut noodles are blocked. Specifically, the stacking cylinder acts up and down, the cut noodles are prevented from advancing to form noodle stacking when descending, and the noodles can advance when ascending.

When the separated noodles are conveyed to the second end of the conveyor belt, the control assembly can control the driven wheel 213 (refer to fig. 2) to rapidly move in the opposite direction of the noodle conveying direction, and meanwhile, control the adjusting wheel 214 to move, so that the tension of the conveyor belt is ensured, and one part of noodles piled at the second end of the conveyor belt can fall into the collecting assembly by means of inertia and dead weight, and output is achieved.

In implementations, the collection assembly may include a funnel and a container. The noodles falling from the conveyor belt can enter the container through the funnel, the short noodles are output according to parts, and the container is used for performing curing operation on the noodles to form one part of noodles.

In some embodiments, an output conveyor belt can be arranged below the funnel, the noodles falling into the funnel are output to other equipment according to parts through the output conveyor belt, and corresponding process treatment is performed.

From the above, it is apparent that the noodle cutting device according to the embodiment of the present utility model can obtain a noodle cake having a shorter length of noodle by improving the cutting manner of the cutter.

Further, through the setting of scalable conveying subassembly, can control the weight of every portion cake accurately, realize mass production.

Further, through the setting of guard plate, the weight of every portion cake can be further accurately controlled.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (10)

1. A noodle cutting device, characterized by comprising:

the transmission component is suitable for receiving a transmission control signal and transmitting the face belt based on the transmission control signal;

the cutting assembly comprises a cutter and a cutter driving module, wherein the cutter driving module is suitable for receiving a cutter driving signal and driving the cutter to move up and down based on the cutter driving signal so as to cut off the noodle belt transmitted on the transmission assembly, and cut off noodle is obtained;

the blocking assembly is suitable for receiving blocking control signals and separating the cut noodles on the transmission assembly based on the blocking control signals;

the collecting assembly is positioned at one end of the conveying assembly and is suitable for collecting the separated noodles;

and the control assembly is connected with the transmission assembly, the cutting assembly and the blocking assembly and is suitable for generating the transmission control signal, the cutter driving signal and the blocking control signal so as to control the actions of the transmission assembly, the cutting assembly and the blocking assembly.

2. The noodle cutting device of claim 1, wherein the conveyor assembly is a retractable conveyor assembly.

3. The noodle cutting device of claim 2, wherein said retractable conveyor assembly comprises:

a conveyor belt having a conveying surface adapted to convey the belt;

and a transmission driving module adapted to receive the transmission control signal to drive the conveyor belt.

4. A noodle cutting device as claimed in claim 3, wherein said transport drive module comprises:

a support frame;

the first driving motor and the second driving motor are fixed on the supporting frame;

and a plurality of rolling members connected to the first driving motor and the second driving motor;

wherein the first drive motor is adapted to drive the movement of the rolling elements to move the conveyor belt around the rolling elements; the second driving motor is suitable for driving the rolling element to move so as to shorten or increase the length of the conveying surface.

5. The noodle cutting device as claimed in claim 4, wherein said rolling member comprises: the driving wheel, the driven wheel, the adjusting wheel and the positioning wheel; the driving wheel is connected with the first driving motor, and the driven wheel and the adjusting wheel are connected with the second driving motor.

6. The noodle cutting device as set forth in claim 4, further comprising: the base, the support frame and separation subassembly, collection subassembly are all fixed on the base.

7. Noodle cutting device according to any one of claims 1 to 6, wherein the barrier assembly is a stacking cylinder.

8. The noodle cutting device of any one of claims 1 to 6, wherein the cutting assembly further comprises: the protection plates are fixed on two sides of the cutter; the cutter driving module is suitable for driving the cutter head of the cutter to extend out of the protection plate so as to cut off the surface belt transmitted by the transmission assembly.

9. Noodle cutting device according to any one of claims 1 to 6, wherein the length of the cut noodle is less than 2cm.

10. Noodle cutting device according to any one of claims 1 to 6, wherein the collecting assembly comprises a funnel and a container.