CN220799812U - Noodle machine - Google Patents

Abstract

The utility model relates to the technical field of food processing, in particular to a noodle machine which comprises a main machine and a water tank, wherein a first accommodating groove which is concavely arranged is arranged on the first side of the main machine, the water tank is arranged in the first accommodating groove, an inner plate of the water tank is attached to the inner wall of the first accommodating groove, and an outer plate of the water tank is arranged flush with the outer wall of the main machine; a capacitance water level sensor is arranged on the inner wall of the first accommodating groove, a Hall plate is arranged on the bottom wall of the first accommodating groove, and a green indicator lamp and a red indicator lamp which are arranged corresponding to the capacitance water level sensor are arranged on the Hall plate; when the water tank is assembled in the first accommodating groove, the inner plate of the water tank is attached to the capacitor water level sensor, and the bottom plate of the water tank is attached to the Hall plate. The utility model adopts the cooperation of the capacitance water level sensor and the Hall plate to control the water level height in the water tank, has more accurate control effect, and is characterized in that the water tank is installed on the host in a hidden way, and the hidden capacitance water level sensor is arranged on the host.

Description

Noodle machine

Technical Field

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

Background

When the noodle machine is used for making noodles, the proportion of flour and water needs to be accurately controlled so as to avoid the phenomenon that dough is mutually stuck together due to excessive water addition, thereby ensuring that the dough can gradually enter a noodle extruding cylinder to finish noodle extrusion; meanwhile, the problem that dough is dry and hard due to too little water is avoided, so that the noodles are difficult to extrude, and the extruded noodles are poor in toughness and easy to break. For this reason, the user usually needs to accurately weigh out the flour and the water to be added by an electronic scale, then pour the flour into the stirring cup, and then gradually pour the water into the stirring cup to mix with the flour. That is, when making noodles, both the flour and the water are accurately weighed by the electronic scale and the flour and the water are sequentially added into the stirring cup, so that the noodle making procedure is complicated, and the user experience is affected.

In view of the above, the chinese patent publication No. CN209436128U discloses a noodle maker, which can automatically fill a proper amount of water according to the weight of flour in a stirring cup. But this prior art still has structural deficiency, be equipped with the float that can reciprocate along with the water level in the storage water tank in its storage water tank, the float exposes the setting, the float includes the float piece and inlays the magnet piece of establishing in float piece lower part, be equipped with the water level sensing device that can perceive float position in the host computer, water level sensing device is proximity switch, proximity switch is the tongue tube, two snatch the sunken about being equipped with on the lateral surface of storage water tank, snatch the sunken middle part that upwards extends to the storage water tank from the bottom of storage water tank, be equipped with the guide way with the storage water tank inner chamber intercommunication in the storage water tank, the float sets up in the guide way, be equipped with the spacing lid that can inject the settlement height when the float comes up in the upper portion of guide way, be provided with L shape water tank support on the host computer. The water storage tank of the prior art is very complex in structure and difficult to assemble with a host, and the prior art is matched with a proximity switch through a floater to control the water level in the water storage tank, so that the control effect is inaccurate.

Accordingly, there is room for improvement in the prior art.

Disclosure of utility model

Aiming at the defects in the prior art, the utility model provides the noodle machine which is simple to operate, balanced in dryness and humidity of noodles, more thorough in noodle cutting, difficult to adhere and capable of realizing convenient and quick multiple cutting under the condition of no shutdown.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

The noodle machine comprises a main machine and a water tank, wherein a first accommodating groove which is concavely arranged is formed in a first side of the main machine, the water tank is arranged in the first accommodating groove, an inner plate of the water tank is attached to the inner wall of the first accommodating groove, and an outer plate of the water tank is arranged flush with the outer wall of the main machine; a capacitance water level sensor is arranged on the inner wall of the first accommodating groove, a Hall plate is arranged on the bottom wall of the first accommodating groove, and a green indicator lamp and a red indicator lamp which are arranged corresponding to the capacitance water level sensor are arranged on the Hall plate; when the water tank is assembled in the first accommodating groove, the inner plate of the water tank is attached to the capacitor water level sensor, and the bottom plate of the water tank is attached to the Hall plate. The utility model can detect the water level of the water tank before realizing automatic water adding, and whether the water level is added to a proper water level line or not; in practical application, when the area of the capacitive water level sensor is smaller than 70% in horizontal projection, the red indicator light is on; when the water level is more than or equal to 70% of the area of the capacitive water level sensor covered by the horizontal projection, the green indicator lamp is lighted. The utility model adopts the cooperation of the capacitance water level sensor and the Hall plate to control the water level height in the water tank, and has more accurate control effect, and the water tank is installed on a host in a hidden way, and the hidden capacitance water level sensor is arranged on the host.

In this embodiment, install magnet on the bottom plate of water tank, be equipped with hall switch and the buzzer siren that set up corresponding with magnet on the hall plate. The utility model can detect whether the water tank is installed in place or not before automatic water adding is realized. More specifically, when the water tank is installed in place, the magnet triggers the Hall switch to be conducted, and the state is normal; when the water tank is not installed in place, the Hall switch is disconnected, the water tank is not installed in place, and the buzzer alarm gives an alarm.

In the embodiment, a stirring cup is arranged on the second side of the main machine, the stirring cup is communicated with the water tank, a stirring paddle and a noodle extruding assembly are arranged in the stirring cup, the stirring paddle is driven to rotate by a driving mechanism, and a discharging channel is arranged on the stirring cup; the first end of the dough extruding component is fixedly connected with the stirring paddle, and the second end of the dough extruding component penetrates through the discharging channel; the second end part of the dough extruding assembly is provided with a detachable die head, the discharging channel is provided with a detachable dough cutting assembly, and the dough cutting assembly and the die head are correspondingly arranged. When the dough extruding machine works, a proper amount of water and flour are added into the stirring cup, the driving mechanism is started to drive the stirring paddle to rotate, the stirring paddle is stirred into dough, the dough after stirring is extruded and pushed by the dough extruding component, the extruded dough is extruded from the surface hole of the die head, and after the dough is processed to a certain length, the dough can be cut off by the dough cutting component. It should be noted that the dough cutting assembly can be operated manually, or can be operated automatically according to the set time after the time is set by the controller.

In this embodiment, install weighing sensor, power strip and water pump in the host computer, the control panel is installed at the host computer top, and weighing module is installed to the host computer bottom, and weighing sensor corresponds the setting with the stirring cup, and weighing sensor is connected with the weighing module electricity, and weighing module is connected with the power strip electricity, and the power strip is connected with the control panel electricity, and the water inlet of water pump passes through pipeline intercommunication water tank, and the delivery port of water pump passes through pipeline intercommunication stirring cup, is equipped with the flowmeter on the water pump, and the water pump is connected with the power strip electricity. The utility model is arranged in such a way that when flour is added into the stirring cup, the weighing sensor transmits weighing measurement data to the weighing assembly, the weighing assembly transmits the data to the power panel, the power panel further transmits the data to the control panel to display the weight, when the power panel senses the weight of the flour, the proportion of the flour to water is set according to a program, the water pump is controlled to work, the flowmeter measures, the corresponding water quantity is pumped from the water tank, and the water is sent into the stirring cup and mixed with the flour, so that the effect of intelligent self-recognition weight water adding is realized.

In this embodiment, the tangent plane subassembly includes die head lid and pendulum rod, and die head lid detachably installs on the discharge channel, is equipped with spacing hole on the die head lid, and spacing hole and die head cooperation are spacing, and the pendulum rod is installed on the die head lid swingably, installs the tangent plane piece on the pendulum rod, and the tangent plane piece corresponds the setting with the play face hole of die head. The utility model is arranged in such a way that when the swing rod swings, the cutting blade is driven to cut off the noodles pushed by the surface hole of the die head. It should be noted that, the die head cover is detachably installed on the discharging channel, so that the die head can be replaced conveniently.

In this embodiment, the outer wall of the die head cover is provided with a shaft hole, a first end of the swing rod penetrates through the shaft hole and is fixed with a sleeve through a screw, a second end of the swing rod is fixed with a swing rod cap through a screw, and the swing rod can swing around the shaft hole in a rotating mode. The utility model is arranged in such a way, and the sleeve and the swing rod cap are respectively fixed at the two ends of the swing rod, so that the swing rod can be effectively prevented from falling out of the shaft hole.

In this embodiment, the die comprises a broad face die, or a pasta die, or a hinge Pi Motou, and the pendulum can be adjusted to the position on the die cover according to the broad face die, pasta die, or hinge skin die. The utility model can make different types of noodles according to different dies, and the swing rod can be adjusted on the die cover according to the wide-face die, the pasta die and the hinge skin die because of the different lengths of the different dies, so that the noodles of the dies with different types can be cut off.

In this embodiment, crowded face subassembly includes feed cylinder and crowded face pole, and in the stirring cup was located to the first end of feed cylinder, the discharge channel setting was worn out to the second end of feed cylinder, the first end and the stirring rake fixed connection of crowded face pole, in the feed cylinder was located to the second end of crowded face pole, be equipped with helical structure on the outer wall of crowded face pole. The stirring device is arranged in such a way that the stirring paddle is driven to rotate by the driving mechanism, the dough extruding rod is driven to rotate, dough entering the charging barrel after stirring is completed is extruded and pushed under the action of the spiral structure, and the dough extruding rod and the stirring paddle are driven by the same driving mechanism, so that the stirring device is more convenient to use.

In this embodiment, be equipped with the material hook on the stirring rake, the first end of feed cylinder is fixed with scrapes the feed cylinder, scrapes and is equipped with the scraper blade on the feed cylinder, and the scraper blade corresponds the setting with the material hook. The stirring device is arranged in such a way that the stirring paddle rotates to drive the material hook to hook the stirred dough into the dough, the dough is scraped off by touching the edge of the scraping plate and falls into the material cylinder, the stirring paddle rotates to drive the dough extruding rod to rotate, and the dough is extruded and pushed under the action of the spiral structure and passes through the surface hole surface of the die head.

When the driving mechanism drives the stirring paddle to rotate anticlockwise, flour and water are stirred into flour batting in a semi-agglomerated state, at the moment, the material hooks cannot hook the flour batting, and when the stirring is completed, the driving mechanism drives the stirring paddle 4 to rotate clockwise, the material hooks 41 can be driven to hook the flour batting.

In this embodiment, the bottom plate of the stirring cup is provided with a slope, and the opening of the stirring cup is provided with a stirring cup cover. The stirring paddle can automatically move the stirred dough to the lowest position of the stirring cup under the action of a slope, so that the dough is more concentrated, wherein the stirring cup cover can prevent the flour from splashing and blowing out, and the stirring cup cover can be used for thoroughly hooking the dough by rotating a material hook on the stirring paddle at the lowest position of the stirring cup.

The utility model has the beneficial effects that:

the utility model can detect the water level of the water tank before realizing automatic water adding, and whether the water level is added to a proper water level line or not; in practical application, when the area of the capacitive water level sensor is smaller than 70% in horizontal projection, the red indicator light is on; when the water level is more than or equal to 70% of the area of the capacitive water level sensor covered by the horizontal projection, the green indicator lamp is lighted; it should be noted that the water tank of the utility model is installed on the host in a hidden way, and a hidden capacitive water level sensor is arranged on the host.

Drawings

FIG. 1 is a diagram of the overall structure of the present utility model;

FIG. 2 is an exploded view of the overall structure of the present utility model;

FIG. 3 is a cross-sectional view of the overall structure of the present utility model;

FIG. 4 is an enlarged view of the position A in FIG. 3;

FIG. 5 is an exploded view of the dough assembly of the present utility model;

FIG. 6 is a view of the operation of the dough cutting assembly of the present utility model;

FIG. 7 is a schematic diagram of a die head with a broad face;

FIG. 8 is a schematic diagram of a pasta die head;

fig. 9 is a diagram of the structure of a die with a hinged sheath.

FIG. 10 is a view of the adjustment of the dough assembly of the present utility model.

In the figure:

1. A host; 2. a water tank; 21. an inner plate; 22. an outer plate; 201. a magnet; 3. a stirring cup; 31. a ramp; 32. a discharge channel; 4. stirring paddles; 41. a material hook; 5. stirring cup cover; 6. a scraping cylinder; 61. a scraper; 7. a charging barrel; 8. a noodle extruding rod; 81. a spiral structure; 9. a die head; 91. a wide face die; 92. pasta die head; 93. a hinged skin die head; 10. a dough cutting assembly; 1001. a die cover; 10011. a shaft hole; 10012. a limiting hole; 1002. swing rod; 10021. cutting into slices; 1003. a swing stem cap; 1004. a sleeve; 11. a weighing assembly; 12. a receiving groove; 101. a driving mechanism; 102. a power panel; 103. a control board; 104. a water pump; 1041. a flow meter; 105. a Hall plate; 1051. a Hall switch; 1052. a green indicator light; 1053. a red indicator light; 106. a capacitive water level sensor.

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 10, the noodle machine of the present utility model comprises a main machine 1 and a water tank 2, wherein a first accommodating groove 12 concavely arranged is arranged on a first side of the main machine 1, the water tank 2 is installed in the first accommodating groove 12, an inner plate 21 of the water tank 2 is attached to an inner wall of the first accommodating groove 12, and an outer plate 22 of the water tank 2 is arranged flush with an outer wall of the main machine 1; a capacitive water level sensor 106 is installed on the inner wall of the first accommodating groove 12, a hall plate 105 is installed on the bottom wall of the first accommodating groove 12, and a green indicator light 1052 and a red indicator light 1053 which are arranged corresponding to the capacitive water level sensor 106 are arranged on the hall plate 105; when the water tank 2 is assembled in the first accommodating groove 12, the inner plate 21 of the water tank 2 is attached to the capacitance water level sensor 106, and the bottom plate of the water tank 2 is attached to the hall plate 105. The utility model can detect the water level of the water tank 2 before automatic water adding is realized, and whether the water level is added to a proper water level line or not is judged. In practical application, when the area of the water level sensor 106 covered by the horizontal projection is less than 70%, the red indicator 1053 is on; when the water level is more than or equal to 70% of the area of the capacitive water level sensor 106 covered by the horizontal projection, the green indicator light 1052 is turned on.

The utility model adopts the cooperation of the capacitance water level sensor 106 and the Hall plate 105 to control the water level in the water tank 2, and has more accurate control effect, and the water tank 2 is installed on the host 1 in a hidden way, and the hidden capacitance water level sensor 106 is arranged on the host 1.

In this embodiment, a magnet 201 is mounted on the bottom plate of the water tank 2, and a hall switch 1051 and a buzzer alarm, which are disposed corresponding to the magnet 201, are disposed on the hall plate 105. The utility model is arranged in such a way that whether the water tank 2 is installed in place or not can be detected before automatic water addition is realized. More specifically, when the water tank 2 is in place, the magnet 201 triggers the hall switch 1051 to conduct, and the state is normal; when the water tank 2 is not installed in place, the Hall switch 1051 is disconnected, the water tank 2 is not installed in place, and the buzzer alarm alarms to prompt.

In this embodiment, a stirring cup 3 is installed on the second side of the main machine 1, the stirring cup 3 is communicated with the water tank 2, a stirring paddle 4 and a noodle extruding component are arranged in the stirring cup 3, the stirring paddle 4 is driven to rotate by a driving mechanism 101, and a discharging channel 32 is arranged on the stirring cup 3; the first end of the dough extruding component is fixedly connected with the stirring paddle 4, and the second end of the dough extruding component penetrates out of the discharging channel 32; a detachable die head 9 is arranged on the second end part of the dough extruding assembly, a detachable dough cutting assembly 10 is arranged on the discharging channel 32, and the dough cutting assembly 10 is arranged corresponding to the die head 9. When the dough kneading machine works, a proper amount of water and flour are added into the stirring cup 3, the driving mechanism 101 is started to drive the stirring paddle 4 to rotate, the dough is stirred into dough, the dough after stirring is extruded and pushed by the dough extruding assembly, the extruded dough is extruded from the surface hole of the die head, and after dough strips are processed to a certain length, the dough strips can be cut off by the dough cutting assembly 10. It should be noted that the dough cutting assembly 10 may be manually operated, or may be automatically operated according to a set time by a controller.

In this embodiment, install weighing sensor, power strip 102 and water pump 104 in the host computer 1, control panel 103 is installed at host computer 1 top, weighing module 11 is installed to host computer 1 bottom, weighing sensor corresponds the setting with stirring cup 3, weighing sensor is connected with weighing module 11 electricity, weighing module 11 is connected with power strip 102 electricity, power strip 102 is connected with control panel 103 electricity, the water inlet of water pump 104 passes through pipeline intercommunication water tank 2, the delivery port of water pump 104 passes through pipeline intercommunication stirring cup 3, be equipped with flowmeter 1041 on the water pump 104, water pump 104 is connected with power strip 102 electricity. The utility model is arranged in such a way that when flour is added into the stirring cup 3, the weighing sensor transmits weighing measurement data to the weighing component 11, the weighing component 11 transmits the data to the power panel 102, the power panel 102 further transmits the data to the control panel 103 to display the weight, when the power panel 102 senses the weight of the flour, the water pump 104 is controlled to work according to the program setting proportion of the flour and the water, the flowmeter 1041 measures the corresponding water quantity pumped from the water tank 2, and the water quantity is sent into the stirring cup 3 to be mixed with the flour, so that the effect of intelligent self-recognition weight water adding is realized.

In this embodiment, the dough cutting assembly 10 includes a die head cover 1001 and a swing link 1002, the die head cover 1001 is detachably mounted on the discharge channel 32, the die head cover 1001 is provided with a limiting hole 10012, the limiting hole 10012 is matched with the die head 9 for limiting, the swing link 1002 is swingably mounted on the die head cover 1001, the swing link 1002 is provided with a dough cutting sheet 10021, and the dough cutting sheet 10021 is correspondingly arranged with the surface hole of the die head 9. The utility model is arranged in such a way that when the swing rod 1002 swings, the cut piece 10021 is driven to cut off the noodles pushed by the surface hole of the die head 9. The die cover 1001 is detachably mounted on the discharge channel 32, so that the die 9 can be replaced conveniently.

In this embodiment, the outer wall of the die cover 1001 is provided with a shaft hole 10011, a first end of the swing rod 1002 passes through the shaft hole 10011 and is fixed with a sleeve 1004 by a screw, a second end of the swing rod 1002 is fixed with a swing rod cap 1003 by a screw, and the swing rod 1002 can swing around the shaft hole 10011 in a rotating manner. The utility model is arranged in such a way, and the sleeve 1004 and the swing rod cap 1003 are respectively fixed at the two ends of the swing rod 1002, so that the swing rod 1002 can be effectively prevented from falling out of the shaft hole 10011.

In this embodiment, the die 9 comprises a broad face die 91, or a pasta die 92, or a hinge Pi Motou, and the swing link 1002 is adjustable in position on the die cover 1001 according to the broad face die 91, pasta die 92, or hinge skin die 93. The utility model can make different types of noodles according to different dies 9, and the swing rod 1002 can adjust the positions of the die cover 1001 according to the wide face die 91, the pasta die 92 and the hinge skin die 93 because the lengths of the different dies 9 are different, so as to meet the noodle cutting requirement of the dies 9 of different types.

In this embodiment, the dough extruding component includes a charging barrel 7 and a dough extruding rod 8, a first end of the charging barrel 7 is disposed in the stirring cup 3, a second end of the charging barrel 7 is disposed through the discharging channel 32, a first end of the dough extruding rod 8 is fixedly connected with the stirring paddle 4, a second end of the dough extruding rod 8 is disposed in the charging barrel 7, and a spiral structure 81 is disposed on an outer wall of the dough extruding rod 8. The stirring device is arranged in such a way that the stirring paddle 4 is driven to rotate by the driving mechanism 101, meanwhile, the dough extruding rod 8 is driven to rotate, dough entering the charging barrel 7 after stirring is extruded and pushed under the action of the spiral structure 81, and the dough extruding rod 8 and the stirring paddle 4 share one driving mechanism 101 to drive, so that the stirring device is more convenient to use.

In this embodiment, the stirring paddle 4 is provided with a material hook 41, the first end of the material cylinder 7 is fixed with a material scraping cylinder 6, the material scraping cylinder 6 is provided with a scraping plate 61, and the scraping plate 61 is arranged corresponding to the material hook 41. The utility model is arranged in such a way that the stirring paddle 4 rotates to drive the material hook 41 to hook the stirred dough into the dough, the edge of the dough, which is contacted with the scraping plate 61, is scraped and falls into the charging barrel 7, the stirring paddle 4 rotates to drive the noodle extruding rod 8 to rotate, and the dough is extruded and pushed under the action of the spiral structure 81 and passes through the surface hole surface of the die head 9.

When the driving mechanism 101 drives the stirring paddle 4 to rotate counterclockwise, flour and water are stirred into a semi-agglomerated flour wadding, the flour wadding cannot be hooked by the material hooks 41 at this time, and after the stirring is completed, the flour wadding can be hooked by the material hooks 41 only when the driving mechanism 101 drives the stirring paddle 4 to rotate clockwise.

In this embodiment, the bottom plate of the stirring cup 3 is provided with a slope 31, and the opening of the stirring cup 3 is provided with a stirring cup cover 5. The utility model is arranged in such a way, the stirring paddle 4 can automatically move the stirred dough to the lowest position of the stirring cup 3 under the action of the slope 31, so that the dough is more concentrated, wherein the stirring cup cover 5 can prevent the flour from splashing and blowing out, and the material hooks 41 on the stirring paddle 4 are rotated to be positioned at the lowest position of the stirring cup 3, so that the dough can be hooked more thoroughly.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative, not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are to be protected by the present utility model.

Claims (10)

1. The utility model provides a noodle, includes host computer and water tank, its characterized in that:

The first side of the host machine is provided with a first accommodating groove which is concavely arranged, the water tank is arranged in the first accommodating groove, an inner plate of the water tank is attached to the inner wall of the first accommodating groove, and an outer plate of the water tank is arranged flush with the outer wall of the host machine;

A capacitive water level sensor is arranged on the inner wall of the first accommodating groove, a Hall plate is arranged on the bottom wall of the first accommodating groove, and a green indicator lamp and a red indicator lamp which are arranged corresponding to the capacitive water level sensor are arranged on the Hall plate;

when the water tank is assembled in the first accommodating groove, the inner plate of the water tank is attached to the capacitor water level sensor, and the bottom plate of the water tank is attached to the Hall plate.

2. A noodle machine according to claim 1, wherein: the bottom plate of the water tank is provided with a magnet, and the Hall plate is provided with a Hall switch and a buzzer alarm which are arranged corresponding to the magnet.

3. A noodle machine according to claim 1, wherein: a stirring cup is arranged on the second side of the main machine, the stirring cup is communicated with the water tank, a stirring paddle and a noodle extruding assembly are arranged in the stirring cup, the stirring paddle is driven to rotate by a driving mechanism, and a discharging channel is arranged on the stirring cup; the first end of the dough extruding component is fixedly connected with the stirring paddle, and the second end of the dough extruding component penetrates out of the discharging channel; the second end part of the dough extruding assembly is provided with a detachable die head, the discharging channel is provided with a detachable dough cutting assembly, and the dough cutting assembly and the die head are correspondingly arranged.

4. A noodle machine according to claim 3, wherein: install weighing sensor, power strip and water pump in the host computer, the control panel is installed at the host computer top, weighing module is installed to the host computer bottom, weighing sensor corresponds the setting with the stirring cup, weighing sensor is connected with the subassembly electricity of weighing, weighing module is connected with the power strip electricity, the power strip is connected with the control panel electricity, the water inlet of water pump passes through pipeline intercommunication water tank, the delivery port of water pump passes through pipeline intercommunication stirring cup, be equipped with the flowmeter on the water pump, the water pump is connected with the power strip electricity.

5. A noodle machine according to claim 3, wherein: the section subassembly includes die head lid and pendulum rod, die head lid detachably installs on the discharge channel, be equipped with spacing hole on the die head lid, spacing hole and die head cooperation are spacing, the pendulum rod is installed on the die head lid swingably, install the section piece on the pendulum rod, the section piece corresponds the setting with the face hole of die head.

6. A noodle machine according to claim 5, wherein: the die head cover is characterized in that a shaft hole is formed in the outer wall of the die head cover, a first end of the swing rod penetrates through the shaft hole and is fixedly provided with a sleeve through a screw, a second end of the swing rod is fixedly provided with a swing rod cap through a screw, and the swing rod can swing around the shaft hole in a rotating mode.

7. A noodle machine according to claim 5, wherein: the swing rod can be adjusted to the position on the die cover relative to the die.

8. A noodle machine according to claim 3, wherein: the extruding assembly comprises a charging barrel and an extruding rod, wherein the first end of the charging barrel is arranged in the stirring cup, the second end of the charging barrel penetrates out of the discharging channel to be arranged, the first end of the extruding rod is fixedly connected with the stirring paddle, the second end of the extruding rod is arranged in the charging barrel, and a spiral structure is arranged on the outer wall of the extruding rod.

9. A noodle machine according to claim 8, wherein: the stirring paddle is provided with a material hook, the first end of the material cylinder is fixedly provided with a material scraping cylinder, the material scraping cylinder is provided with a scraping plate, and the scraping plate is correspondingly arranged with the material hook.

10. A noodle machine according to claim 3, wherein: the bottom plate of stirring cup is equipped with the slope, stirring bowl cover is installed to the opening of stirring cup.