CN211212784U - Hand-held type noodle - Google Patents

Abstract

The utility model discloses a hand-held type noodle, including the host computer, with host computer accordant connection's gear reduction box and with gear reduction box accordant connection's crowded noodle structure annex. The utility model has the advantages that the handheld food processor has the noodle extruding function by arranging the noodle extruding structural accessory; the utility model discloses a set up gear reduction box between host computer and crowded noodle structure annex, can reduce the host computer revolution, increase torsion, the noodless of being convenient for are extruded.

Description

Hand-held type noodle

Technical Field

The utility model relates to a noodle technical field, concretely relates to hand-held type noodle.

Background

With the improvement of the life of people, people can do some food by themselves. The noodles are staple food in daily life of people, but the noodles are not easy to be made by people. The dough is relatively simple to make from flour, but most people do not have skill in the process of making dough into noodles, and the making process is relatively complicated, time-consuming and labor-consuming, so that a machine for extruding noodles is necessary to design.

At present, only a noodle maker of household appliances on the market has a noodle extruding function, the noodle maker usually has the functions of kneading and extruding noodles together, mechanical kneading can not necessarily meet the taste of every person, a plurality of people are still used to knead the noodles by using the traditional method, if the kneading function is not used, one machine is only used for extruding the noodles, and the cost performance is low because the noodle maker is expensive and has a single function.

Hand-held type cooking machine is a domestic appliance commonly used, generally all has a plurality of functional accessories, has the meat mincing ware, stirs the head, the lantern stick, two egg forks, vegetables cooking ware etc. and the function has: cutting meat, cutting vegetables, beating protein, making cream, stirring and mixing, shredding vegetables, slicing, cutting into strips and the like, but without the function of extruding noodles.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the technical defect of background art is overcome, a hand-held noodle machine is provided. The utility model has the advantages that the handheld food processor has the noodle extruding function by arranging the noodle extruding structural accessory; the utility model discloses a set up gear reduction box between host computer and crowded noodle structure annex, can reduce the host computer revolution, increase torsion, the noodless of being convenient for are extruded.

The utility model provides an above-mentioned technical problem adopted technical scheme as follows:

a handheld noodle maker comprises a main machine, a gear reduction box connected with the main machine in a matching mode, and a noodle extruding structure accessory connected with the gear reduction box in a matching mode.

Further, the host comprises a motor, a host shell for accommodating the motor, and a power switch arranged on the surface of the host shell; the power switch is electrically connected with the motor.

Further, the motor should ensure a torsion force.

Further, the rotating speed of the motor is 15500-18000 rpm.

Further, the output speed of the gear reduction box is 40-160 rpm.

Furthermore, the output speed of the gear reduction box is 58-60 rpm.

Furthermore, the gear reduction box comprises a driving main shaft, a speed reduction planetary gear set in matched transmission connection with the driving main shaft, and a gear reduction box shell for accommodating the driving main shaft and the speed reduction planetary gear set.

Further, the reduction ratio of the reduction planetary gear set is 296.

Furthermore, the speed reduction planetary gear set comprises a transmission shaft, a sun gear, a planetary gear, a planet carrier and an inner gear ring; the number of the sun gears is one, the number of the planet gears is nine, the number of the planet carriers is three, the three planet carriers are respectively a first planet carrier, a second planet carrier and a third planet carrier, and each planet carrier is connected with the three planet gears in a matching way; the first planet carrier, the second planet carrier and the third planet carrier respectively comprise three planet shafts, and each planet shaft is connected with one planet gear in a matching way; the output end of the transmission shaft is respectively connected with the sun gear and the first planet carrier in a matching manner; the sun gear is connected with the three planet gears on the first planet carrier in a matching way; the first planet carrier is in matched transmission connection with the second planet carrier, and the second planet carrier is in matched transmission connection with the third planet carrier; and the nine planetary gears are respectively connected with the inner gear ring in a matching manner.

Furthermore, a first driving gear is arranged at the output end of the first planet carrier, a second driving gear is arranged at the output end of the second planet carrier, and an output head of the speed reduction planetary gear set is arranged at the output end of the third planet carrier; the first driving gear is connected with the three planet gears on the second planet carrier in a matching way; the second driving gear is connected with the three planet gears on the third planet carrier in a matching way; the output head of the speed reduction planetary gear set is connected with the extruded noodle structure accessory in a matching manner.

Further, the speed reduction planetary gear set comprises a first gasket, a second gasket, a third gasket and a first bushing; the first gasket is arranged on the outer side of the output end of the transmission shaft, the second gasket is arranged at the bottom of the first planet carrier, the third gasket is arranged at the bottom of the second planet carrier, the first bushing is arranged at the bottom of the third planet carrier and the outer side of the output head of the speed reduction planetary gear set, and the third planet carrier is connected with the inner gear ring and the gear reduction box shell in a matched mode through the first bushing.

Further, the gear reduction box shell comprises a gear reduction box upper shell and a gear reduction box lower shell connected with the gear reduction box upper shell in a buckling mode; the upper shell of the gear reduction box accommodates the speed reduction planetary gear set; the gear reduction box lower shell is connected with the inner gear ring in a matching mode, and the gear reduction box lower shell is connected with the output head of the speed reduction planetary gear set in a matching mode through the first bushing.

Furthermore, the noodle extruding structure accessory comprises a noodle extruding screw, a noodle discharging sieve and a noodle extruder shell; one end of the dough extruding screw is connected with the gear reduction box in a matching manner, and the other end of the dough extruding screw is connected with the dough outlet screen in a matching manner; the noodle extruding device shell contains the noodle extruding screw rod and the noodle discharging sieve.

Furthermore, the rotating speed of the dough extruding screw is 40-160 rpm.

Furthermore, the rotating speed of the dough extruding screw is 58-60 rpm.

Furthermore, the noodle extruding screw comprises a screw body head, a baffle, a screw body and screw teeth; the baffle plate divides the noodle extruding screw into the screw body head and the screw body; the screw teeth are arranged on the surface of the screw rod body, and a gap is formed between the screw teeth and the inner side wall of the shell of the noodle extruding device; the dough extruding screw is in matched transmission connection with the gear reduction box through the head of the screw body; the noodle extruding structure accessory comprises a second bushing arranged on the upper surface of the baffle, and the noodle extruding screw is connected with the noodle extruding device shell in a matching way through the second bushing; the bottom of the screw rod body is sunken inwards to form a groove, and the noodle extruding screw rod is connected with the noodle outlet sieve in a matching mode through the groove.

Further, the screw pitch of the noodle extruding screw is gradually reduced from the front end to the rear end.

Furthermore, the screw pitch of the noodle extruding screw is more than 10mm, and the bone position angle on the surface of the noodle extruding screw is less than 90 degrees, so that the dough can be extruded downwards more conveniently, and the noodle outlet speed is increased.

The bone position angle refers to an included angle between the orientation of the screw teeth and a horizontal plane.

Further, the surface outlet sieve comprises a sieve body, a surface outlet hole arranged on the sieve body and a convex shaft arranged in the middle of the upper surface of the sieve body; the dough outlet sieve is connected with the dough extruding screw rod in a matching way through the convex shaft.

Further, the noodle extruding device shell comprises a noodle extruding cylinder, a charging barrel arranged on the side wall of the noodle extruding cylinder, and an end cover arranged at the bottom of the noodle extruding cylinder; the dough extruding cylinder accommodates the dough extruding screw and the dough outlet sieve; the end cover is in threaded connection with the noodle extruding cylinder, and the noodle outlet sieve is fixed at the bottom of the noodle extruding cylinder through the end cover.

Further, the angle between the feeding cylinder and the noodle extruding cylinder is 30-60 degrees, so that noodles are conveniently placed into the feeding cylinder, the noodle extruding cylinder also accords with human engineering, and other angles are not beneficial to placing dough into the feeding cylinder.

Further, the feeding barrel comprises an inner barrel and an outer barrel which is connected with the inner barrel in a matched mode.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model adds a functional accessory on the hand-held food processor to realize the function of extruding noodles, so that the hand-held food processor has multiple purposes, simple operation and high cost performance;

(2) the utility model can reduce the revolution of the main machine, increase the torsion and facilitate the extrusion of noodles by arranging the gear reduction box between the main machine and the noodle extruding structure accessory;

(3) the utility model discloses crowded noodless structural accessories is installed and removed and easy operation, the washing of being convenient for.

Drawings

Fig. 1 is a schematic structural view of a handheld noodle maker according to embodiment 1 of the present invention;

fig. 2 is an exploded view of a hand-held noodle maker according to embodiment 1 of the present invention;

fig. 3 is a cross-sectional view of a handheld noodle maker according to embodiment 1 of the present invention;

fig. 4 is an exploded view of the gear reduction box according to embodiment 1 of the present invention;

fig. 5 is a sectional view of the gear reduction box according to embodiment 1 of the present invention;

fig. 6 is an exploded view of a reduction planetary gear set according to embodiment 1 of the present invention;

fig. 7 is an exploded view of the extruded noodle structure accessory according to embodiment 1 of the present invention.

The corresponding part names for the various reference numbers in the figures are:

1-a host; 11-a main machine housing; 12-a power switch; 2-a gear reduction box; 21-driving the main shaft; 22-a reduction planetary gear set; 221-a transmission shaft; 222-sun gear; 223-a planetary gear; 224-a planet carrier; 2241-a first planet carrier; 22411-a first drive gear; 2242-a second planet carrier; 22421-a second drive gear; 2243-third planet carrier; 22431-output head of the speed reduction planetary gear set; 2244-planet axis; 225-inner gear ring; 226-a first shim; 227-a second shim; 228-a third gasket; 229-a first bushing; 23-gearbox housing; 231-gear reduction box upper shell; 232-gear reduction box lower shell; 3-extruding noodles structure accessories; 31-a dough extruding screw; 311-screw body head; 312-a baffle; 313-a screw body; 3131-a recess; 314-thread; 32-screening the dough; 321-a screen body; 322-face outlet; 323-protruding shaft; 33-a noodle extruder shell; 331-a dough extruding cylinder; 332-charging the barrel; 3321-inner cylinder; 3322-outer cylinder; 333-end cap; 34-second bushing.

Detailed Description

For a better understanding of the present invention, reference is made to the following detailed description and accompanying drawings. It should be understood that these examples are for further illustration of the present invention only, and are not intended to limit the scope of the present invention. It should be further understood that after reading the above description of the present invention, those skilled in the art will make certain insubstantial changes or modifications to the present invention, and shall still fall within the scope of the present invention.

Example 1

A handheld noodle maker is shown in figures 1-7 and comprises a main machine 1, a gear reduction box 2 connected with the main machine in a matching mode, and a noodle extruding structure accessory 3 connected with the gear reduction box 2 in a matching mode.

The host 1 includes a motor (not shown in the figure), a host housing 11 accommodating the motor, and a power switch 12 disposed on a surface of the host housing 11; the power switch 12 is electrically connected to the motor.

The illustrated embodiment of the main body 1 is characterized by having a complete housing in which the motor is mounted for axial rotation, and the main body 2 is not limited in shape and type, including hand-held mixers, stand mixers, and blenders, and is within the scope of the present patent disclosure.

The speed reduction output speed of the gear reduction box 2 explained in the embodiment is derived from the rotation input of the motor of the main machine 1, is obtained by gear change, and adopts other similar motion mechanisms within the range explained in the embodiment.

The motor is to ensure torque.

The rotating speed of the motor is 15500-18000 rpm.

The output speed of the gear reduction box is 58-60 rpm.

The gear reduction box 2 comprises a driving main shaft 21, a speed reduction planetary gear set 22 in matched transmission connection with the driving main shaft 21, and a gear reduction box shell 23 accommodating the driving main shaft 21 and the speed reduction planetary gear set 22.

The reduction ratio of the gear reduction box 2 is 296.

The reduction planetary gear set 22 comprises a transmission shaft 221, a sun gear 222, a planetary gear 223, a planet carrier 224 and an annular gear 225; the number of the sun gears 222 is one, the number of the planet gears 223 is nine, the number of the planet carriers 224 is three, the three planet carriers are respectively a first planet carrier 2241, a second planet carrier 2242 and a third planet carrier 2243, and each planet carrier 224 is connected with the three planet gears 223 in a matching way; the first planet carrier 2241, the second planet carrier 2242 and the third planet carrier 2243 respectively comprise three planet shafts 2244, and each planet shaft 2244 is connected with one planet gear 223 in a matching way; the output end of the transmission shaft 221 is respectively connected with the sun gear 222 and the first planet carrier 2241 in a matching manner; the sun gear 222 is connected with the three planetary gears 223 on the first planet carrier 2241 in a matching manner; the first planet carrier 2241 is in matched transmission connection with the second planet carrier 2242, and the second planet carrier 2242 is in matched transmission connection with the third planet carrier 2243; nine planetary gears 223 are respectively matched and connected with the inner gear ring 225.

The rotating speed of the motor is 15500-18000 rpm, through the gear reduction box with the three-layer planetary gear structure, 296 times of reduction ratio is generated, the output speed is reduced to 58-60 rpm, and therefore torsion is increased, and noodle extrusion is facilitated.

A first driving gear 22411 is arranged at the output end of the first planet carrier 2241, a second driving gear 22421 is arranged at the output end of the second planet carrier 2242, and a speed-reducing planetary gear set output head 22431 is arranged at the output end of the third planet carrier 2243; the first driving gear 22411 is connected to the three planetary gears 223 of the second planet carrier 2242 in a matching manner; the second driving gear 22421 is connected to the three planetary gears 223 of the third planet carrier 2243 in a matching manner; the output head 22431 of the speed reduction planetary gear set is connected with the extruded noodle structure accessory 3 in a matching way.

The reduction planetary gear set 22 includes a first shim 226, a second shim 227, a third shim 228, and a first bushing 229; the outside of transmission shaft 221's output sets up first gasket 226, the bottom of first planet carrier 2241 sets up second gasket 227, the bottom of second planet carrier 2242 sets up third gasket 228, the bottom of third planet carrier 2243 and the outside of speed reduction planetary gear set delivery head 22431 sets up first bush 229, third planet carrier 2243 passes through first bush 229 with ring gear 225 and gear reduction box casing 23 accordant connection.

The first bushing 229 is provided to prevent heating of the output 22431 of the reduction planetary gearset.

The gear reduction box shell 23 comprises a gear reduction box upper shell 231 and a gear reduction box lower shell 232 which is connected with the gear reduction box upper shell 231 in a buckling manner; the gear reduction box upper shell 231 houses the speed reduction planetary gear set 22; the gear reduction box lower shell 232 is connected with the inner gear ring 225 in a matching mode, and the gear reduction box lower shell 232 is connected with the output head 22431 of the speed reduction planetary gear set in a matching mode through the first bushing 229.

The noodle extruding structure accessory 3 comprises a noodle extruding screw 31, a noodle outlet sieve 32 and a noodle extruder shell 33; one end of the dough extruding screw 31 is connected with the gear reduction box 2 in a matching way, and the other end of the dough extruding screw 31 is connected with the dough outlet screen 32 in a matching way; the noodle extruding device shell 33 contains the noodle extruding screw 31 and the noodle outlet screen 32.

The rotational force of the main body 1 plus the angle of the extrusion screw 31 will create a prescribed forward one-directional force.

The rotating speed of the noodle extruding screw 31 is 58-60 rpm.

The dough extruding screw 31 comprises a screw body head 311, a baffle 312, a screw body 313 and a screw thread 314; the baffle 312 divides the noodle extruding screw 31 into the screw body head 311 and the screw body 313; the screw teeth 314 are arranged on the surface of the screw rod body 313, and a gap is formed between the screw teeth 314 and the inner side wall of the noodle extruding device shell 33; the dough extruding screw 31 is in matched transmission connection with the gear reduction box 2 through the screw body head 311; the noodle extruding structure accessory 3 comprises a second bushing 34 arranged on the upper surface of the baffle, and the noodle extruding screw 31 is matched and connected with the noodle extruding device shell 33 through the second bushing 34; the bottom of the screw body 313 is recessed to form a groove 3131, and the dough extruding screw 31 is connected with the dough outlet screen 32 in a matching way through the groove 3131.

The baffle 312 is used for supporting the upward reverse thrust generated when the dough extruding screw 31 extrudes the dough.

The second bushing 34 is provided to prevent the face screw 31 from generating hot melt.

The screw pitch of the noodle-extruding screw 31 becomes gradually smaller from the front end to the rear end.

The screw pitch of the noodle extruding screw 31 is more than 10mm, and the bone position angle on the surface of the noodle extruding screw 31 is less than 90 degrees, so that the dough can be extruded downwards more conveniently, and the noodle outlet speed is increased.

The bone position angle is an included angle between the orientation of the screw teeth 314 and a horizontal plane.

The outlet screen 32 comprises a screen body 321, an outlet hole 322 arranged on the screen body 321, and a convex shaft 323 arranged in the middle of the upper surface of the screen body 321; the flour outlet screen 32 is connected with the flour extruding screw 31 in a matching way through the convex shaft 323.

The size and shape of the noodle outlet 322 of the noodle outlet sieve 32 can be adjusted, and noodles with different shapes can be obtained.

The dough extruding device shell 33 comprises a dough extruding cylinder 331, a feeding cylinder 332 arranged on the side wall of the dough extruding cylinder 331, and an end cover 333 arranged at the bottom of the dough extruding cylinder 331; the dough extruding cylinder 331 contains the dough extruding screw 31 and the dough outlet screen 32; the end cover 333 is in threaded connection with the dough extruding cylinder 331, and the end cover 333 fixes the dough outlet screen 32 at the bottom of the dough extruding cylinder 331.

The angle between the feeding cylinder 332 and the noodle extruding cylinder 331 is 30-60 degrees, so that noodles are conveniently placed into the feeding cylinder 332, the noodle feeding cylinder also accords with human engineering, and dough is not favorably placed into the feeding cylinder 332 at other angles.

The charging barrel 332 comprises an inner barrel 3321 and an outer barrel 3322 which is matched and connected with the inner barrel 3321.

The utility model discloses an operation principle:

the main body 1 is provided therein with a motor having an axial rotation. The main body 1 is provided with a fastening point which is connected with a fastening point of an upper shell 231 of the gear reduction box. The motor shaft is provided with an output coupling structure which is used for being connected with a driving main shaft 21, the rotating output of the main machine 1 is reduced through a reduction planetary gear set 22, a lower shell 232 of a gear reduction box is provided with a clamping point which is connected with a buckling point of a shell 33 of the dough extruding device, wherein the reduction planetary gear set 22 is provided with a reduction planetary gear set output head 22431, the reduction planetary gear set output head 22431 and a screw body head 311 at the top of the dough extruding screw 31 are provided with a coupling structure, and when the main machine 1 rotates and outputs, the reduction gear box 2 reduces the speed to drive the dough extruding screw 31 to rotate.

When the dough enters from the feeding barrel 332 of the dough extruding device housing 33, the dough falls into the rotating track of the dough extruding screw 31 along the feeding barrel 332, wherein the screw teeth 314 on the dough extruding screw 31 have a certain angle, and the angle of the screw teeth 314 forms a designated moving direction. The screw 314 of the flour extruding screw 31 and the inner side wall of the flour extruder housing 33 keep a certain gap, the specified rotating force can extrude the dough to move towards the flour outlet screen 32 when the dough is extruded by the flour extruding screw 31, and when the flour extruding screw 31 continuously extrudes the dough to the position of the flour outlet screen 32, the dough at the position of the flour outlet screen 32 can be extruded from the flour outlet hole 322 of the flour outlet screen 32 under the pressure.

The utility model discloses an operating method:

the kneaded dough is put into the charging barrel 332, the power switch 12 on the main machine shell 11 is pressed, the motor is started, the torque force is transmitted to the noodle extruding screw 31 in the noodle extruding structural accessory 3 through the gear reduction box 2, the noodle extruding screw 31 extrudes the dough, and the extruded dough extrudes noodles through the noodle outlet hole 322 of the noodle outlet screen 32.

The above description is not intended to limit the present invention, and the present invention is not limited to the above examples. Those skilled in the art should also realize that changes, modifications, additions, or substitutions can be made without departing from the spirit and scope of the invention.

Claims (9)

1. A hand-held noodle maker is characterized by comprising a main machine (1), a gear reduction box (2) connected with the main machine in a matching way, and a noodle extruding structure accessory (3) connected with the gear reduction box (2) in a matching way; the noodle extruding structure accessory (3) comprises a noodle extruding screw rod (31), a noodle outlet sieve (32) and a noodle extruder shell (33); one end of the dough extruding screw rod (31) is connected with the gear reduction box (2) in a matching way, and the other end of the dough extruding screw rod (31) is connected with the dough outlet screen (32) in a matching way; the noodle extruding device shell (33) contains the noodle extruding screw rod (31) and the noodle outlet screen (32).

2. The hand-held noodle maker as claimed in claim 1, wherein the output speed of the gear reduction box (2) is 58-60 rpm.

3. A hand-held noodle maker according to claim 2, wherein the gear reduction box (2) comprises a drive spindle (21), a reduction planetary gear set (22) in mating driving connection with the drive spindle (21), and a gear reduction box housing (23) accommodating the drive spindle (21) and the reduction planetary gear set (22); the speed reduction planetary gear set (22) comprises a transmission shaft (221), a sun gear (222), a planetary gear (223), a planet carrier (224) and an annular gear (225); the number of the sun gears (222) is one, the number of the planet gears (223) is nine, the number of the planet carriers (224) is three, the three planet carriers are respectively a first planet carrier (2241), a second planet carrier (2242) and a third planet carrier (2243), and each planet carrier (224) is connected with the three planet gears (223) in a matching way; the first planet carrier (2241), the second planet carrier (2242) and the third planet carrier (2243) respectively comprise three planet shafts (2244), and each planet shaft (2244) is connected with one planet gear (223) in a matching mode; the output end of the transmission shaft (221) is respectively connected with the sun gear (222) and the first planet carrier (2241) in a matching manner; the sun gear (222) is in matched connection with the three planet gears (223) on the first planet carrier (2241); the first planet carrier (2241) is in matched transmission connection with the second planet carrier (2242), and the second planet carrier (2242) is in matched transmission connection with the third planet carrier (2243); nine planetary gears (223) are respectively connected with the inner gear ring (225) in a matching manner.

4. A hand held noodle machine as claimed in claim 3 wherein the output of said first planet carrier (2241) is provided with a first drive gear (22411), the output of said second planet carrier (2242) is provided with a second drive gear (22421), the output of said third planet carrier (2243) is provided with a speed reduction planetary gear set output (22431); the first driving gear (22411) is in matched connection with the three planetary gears (223) on the second planet carrier (2242); the second driving gear (22421) is in matched connection with the three planetary gears (223) on the third planet carrier (2243); the output head (22431) of the speed reduction planetary gear set is connected with the noodle extruding structure accessory (3) in a matching mode.

5. The hand-held noodle maker according to claim 4 wherein the reduction planetary gear set (22) comprises a first washer (226), a second washer (227), a third washer (228) and a first bushing (229); the outside of the output of transmission shaft (221) sets up first gasket (226), the bottom of first planet carrier (2241) sets up second gasket (227), the bottom of second planet carrier (2242) sets up third gasket (228), the bottom of third planet carrier (2243) and the outside of speed reduction planetary gear set delivery head (22431) sets up first bush (229), third planet carrier (2243) passes through first bush (229) with ring gear (225) and gear reduction case casing (23) accordant connection.

6. The hand-held noodle maker as claimed in claim 5, wherein the gear reduction box housing (23) comprises a gear reduction box upper shell (231) and a gear reduction box lower shell (232) which is snap-connected with the gear reduction box upper shell (231); the gear reduction box upper shell (231) accommodates the speed reduction planetary gear set (22); the gear reduction box lower shell (232) is connected with the inner gear ring (225) in a matching mode, and the gear reduction box lower shell (232) is connected with the output head (22431) of the speed reduction planetary gear set in a matching mode through the first bushing (229).

7. The hand-held noodle maker according to claim 1, wherein the noodle extruding screw (31) comprises a screw body head (311), a baffle plate (312), a screw body (313) and a thread (314); the baffle (312) divides the dough extruding screw (31) into the screw body head (311) and the screw body (313); the surface of the screw rod body (313) is provided with the screw teeth (314), and a gap is formed between the screw teeth (314) and the inner side wall of the noodle extruding device shell (33); the dough extruding screw (31) is in matched transmission connection with the gear reduction box (2) through the screw body head (311); the noodle extruding structure accessory (3) comprises a second bushing (34) arranged on the upper surface of the baffle, and the noodle extruding screw rod (31) is matched and connected with the noodle extruder shell (33) through the second bushing (34); the bottom of the screw rod body (313) is recessed to form a groove (3131), and the noodle extruding screw rod (31) is connected with the noodle outlet screen (32) in a matching mode through the groove (3131).

8. The hand-held noodle maker according to claim 1, wherein the noodle outlet screen (32) comprises a screen body (321), a noodle outlet hole (322) provided in the screen body (321), and a protruding shaft (323) provided in the middle of the upper surface of the screen body (321); the dough outlet screen (32) is connected with the dough extruding screw rod (31) in a matching way through the convex shaft (323).

9. The hand-held noodle maker according to claim 1, wherein the noodle extruder housing (33) comprises a noodle extruding cylinder (331), a feeding cylinder (332) provided on a side wall of the noodle extruding cylinder (331), and an end cap (333) provided on a bottom of the noodle extruding cylinder (331); the dough extruding cylinder (331) contains the dough extruding screw rod (31) and the dough outlet screen (32); the end cover (333) is in threaded connection with the dough extruding cylinder (331), and the flour outlet screen (32) is fixed at the bottom of the dough extruding cylinder (331) through the end cover (333).

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