CN220799811U - Noodle machine - Google Patents

Abstract

The utility model discloses a noodle machine which comprises a shell provided with a guide rail, a noodle pressing disc, a driving component and a screw rod, wherein the noodle pressing disc is directly and fixedly connected with the front end of the screw rod, a sleeve which is in threaded connection with the screw rod is arranged on the screw rod, the driving component is connected with the sleeve, when the driving component drives the sleeve to rotate, the screw rod can be driven to slide along the guide rail, and the screw rod slides to drive the noodle pressing disc to move so as to extrude dough. Compared with the prior art, the noodle machine is directly fixedly connected with the front end of the screw rod through the noodle pressing disc, the driving assembly drives the sleeve to rotate so as to drive the screw rod to slide along the guide rail, and the screw rod slides to drive the noodle pressing disc to move so as to extrude dough.

Description

Noodle machine

Technical Field

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

Background

The Chinese patent publication No. CN213939504U discloses an extrusion component 1 for noodle machine, which comprises a screw 11, a push rod 12 in threaded connection with the screw 11 and a driving device 13 for driving the screw 11 to rotate. Thus, when the drive means 13 drives the screw 11 in rotation, the push rod 12 also rotates with the screw 11, i.e. both are relatively stationary. For this reason, it is necessary to apply a certain constraint to the push rod 12 so that it cannot be rotated circumferentially, and the push rod 12 can be moved in the axial direction of the screw 11 to press the dough in the dough-sheeter.

For this purpose, the extrusion assembly further comprises a guide rail 14, which guide rail 14 is provided with a chute 15 along the axial direction of the screw 11; the push rod 12 is provided with a limit lug 16 which is arranged in the chute 15 in a sliding way; when the driving device 13 drives the screw 11 to rotate, the limiting projection 16 can be driven to slide along the chute 15. In addition, the push rod 12 is further provided with a positioning block 17, the chute 15 is provided with an abutting block 18 matched with the positioning block 17, when the limit bump 16 slides in the chute 15, two sides of the positioning block 17 are respectively abutted against the abutting block 18, so that the push rod 12 can only slide along the axial direction of the screw rod 11 and can not perform circumferential rotation due to the constraint of the abutting block 18, and the dough is extruded. The extruding component for the noodle machine drives the screw rod 11 to rotate through the driving device 13, the screw rod 11 rotates to drive the limiting protruding block 16 to slide along the sliding groove 15, the limiting protruding block 16 slides along the sliding groove 15 to drive the push rod 12 to slide along the axis direction of the screw rod 11 and extrude dough, the length of the push rod 12 is almost the same as that of the screw rod 11, and the defects of more materials, high cost and complex structure exist.

Disclosure of utility model

The utility model aims to provide a noodle machine which is used for solving the technical problems.

The utility model provides a noodle machine which comprises a shell provided with a guide rail, a noodle pressing disc, a driving component and a screw rod, wherein the noodle pressing disc is directly and fixedly connected with the front end of the screw rod, a sleeve which is in threaded connection with the screw rod is arranged on the screw rod, the driving component is connected with the sleeve, when the driving component drives the sleeve to rotate, the screw rod can be driven to slide along the guide rail, and the screw rod slides to drive the noodle pressing disc to move so as to extrude dough.

Preferably, a sliding block embedded in the guide rail is arranged at the rear end of the screw. The sliding block can enable the screw rod to basically keep linear sliding, and the screw rod cannot swing in the sliding process.

Preferably, a micro switch is arranged at the front end and the rear end of one side of the guide rail.

Preferably, one side of the sliding block is provided with an extension piece which extends outwards and can trigger the micro switch.

Preferably, the driving assembly comprises a motor and a transmission box, and a transmission gear is arranged in the transmission box.

Preferably, a plane bearing is arranged on one side of the sleeve, and the plane bearing is arranged in a concave cavity of the transmission case. The plane bearing can enable the sleeve to rotate smoothly, friction force is less, and consumption of electric energy is reduced.

Preferably, the sleeve is arranged in the transmission case, the sleeve is provided with an external gear, and the external gear is meshed with the transmission gear.

Preferably, the transmission gear comprises a driving gear, a first coaxial gear set, a second coaxial gear set and a third coaxial gear set, wherein the driving gear is fixed on a rotating shaft of the motor, and the first coaxial gear set, the second coaxial gear set and the third coaxial gear set are respectively pivoted on the transmission case.

Preferably, the large gear of the first coaxial gear set is meshed with the driving gear, the small gear of the first coaxial gear set is meshed with the large gear of the second coaxial gear set, the small gear of the second coaxial gear set is meshed with the large gear of the third coaxial gear set, and the small gear of the third coaxial gear set is meshed with the external gear of the sleeve.

Preferably, a battery is fixed above the guide rail, the transmission case is arranged in the middle of the shell, the battery is arranged on the right side of the transmission case relative to the transmission case, and the motor is arranged on the left side of the transmission case relative to the transmission case. The transmission case is arranged in the middle of the shell, the battery is arranged on the right side of the transmission case relative to the transmission case, and the motor is arranged on the left side of the transmission case relative to the transmission case, so that the weight distribution of the whole noodle machine is relatively uniform, and the noodle machine is favorable for being held by a user when making noodles, and has good hand feeling.

Compared with the prior art, the noodle machine is directly fixedly connected with the front end of the screw rod through the noodle pressing disc, the driving assembly drives the sleeve to rotate so as to drive the screw rod to slide along the guide rail, and the screw rod slides to drive the noodle pressing disc to move so as to extrude dough.

Drawings

FIG. 1 is a perspective view of a noodle machine of the present utility model;

FIG. 2 is a cross-sectional view of a noodle machine of the present utility model;

Fig. 3 is a perspective view of a noodle machine of the present utility model with the upper part of the housing and the gear box removed.

The implementation and advantages of the functions of the present utility model will be further described with reference to the accompanying drawings.

Detailed Description

Various embodiments of the utility model are disclosed in the following drawings, in which details of the practice are set forth in the following description for the purpose of clarity. However, it should be understood that these practical details are not to be taken as limiting the utility model. That is, in some embodiments of the utility model, these practical details are unnecessary. Moreover, for the purpose of simplifying the drawings, some conventional structures and components are shown in the drawings in a simplified schematic manner.

It should be noted that all directional indicators (such as up, down, left and right, front and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are correspondingly changed.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the utility model solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

For a further understanding of the nature, features, and efficacy of the present utility model, the following examples are set forth in order to provide a further understanding of the utility model, and are intended to be described in connection with the accompanying drawings:

As shown in fig. 1 to 3, a noodle maker comprises a shell 1 provided with a guide rail 11, a noodle pressing disc 2, a driving component 3 and a screw 4, wherein the noodle pressing disc 2 is directly fixedly connected with the front end of the screw 4, a sleeve 5 which is in threaded connection with the screw 4 is arranged on the screw 4, the driving component 3 is connected with the sleeve 5, when the driving component 3 drives the sleeve 5 to rotate, the screw 4 can be driven to slide along the guide rail 11, and the screw 4 slides to drive the noodle pressing disc 2 to move so as to extrude dough. The rear 4 end of the screw is provided with a slide block 41 embedded in the guide rail 11. The slider 41 can keep the screw 4 sliding basically in a straight line, and the screw cannot swing during sliding. The front end and the rear end of one side of the guide rail 11 are respectively provided with a micro switch 12, and one side of the sliding block 41 is provided with an extension piece 42 which extends outwards and can trigger the micro switch 12. Compared with the prior art, the noodle machine is directly fixedly connected with the front end of the screw 4 through the noodle pressing disc 2, the driving assembly drives the sleeve 5 to rotate so as to drive the screw 4 to slide along the guide rail 11, and the screw 4 slides so as to drive the noodle pressing disc 2 to move so as to extrude dough, and the noodle machine has the advantages of small material consumption, simple structure and effective cost reduction.

Specifically, the driving assembly 3 comprises a motor 31 and a transmission box 32, and a transmission gear is arranged in the transmission box 31;

the sleeve 5 is provided in the transmission case 32, and the sleeve 5 is provided with an external gear 51, and the external gear 51 meshes with the transmission gear.

Further, the transmission gear comprises a driving gear 33, a first coaxial gear set 34, a second coaxial gear set 35 and a third coaxial gear set 36, wherein the driving gear 33 is fixed on the rotating shaft of the motor 31, and the first coaxial gear set 34, the second coaxial gear set 35 and the third coaxial gear set 36 are respectively pivoted on the transmission case 32. The coaxial gear set is characterized in that two gears are integrally or fixedly connected together, and the central shafts are coaxially arranged.

Preferably, the large gear of the first coaxial gear set 34 meshes with the drive gear 33, the small gear of the first coaxial gear set 34 meshes with the large gear of the second coaxial gear set 35, the small gear of the second coaxial gear set 35 meshes with the large gear of the third coaxial gear set 36, and the small gear of the third coaxial gear set 36 meshes with the outer gear 51 of the sleeve 5.

In addition, a flat bearing 13 is provided on one side of the sleeve 5, and the flat bearing 13 is installed in a cavity 321 of the transmission case. The plane bearing 13 can enable the sleeve to rotate smoothly, friction force is less, and consumption of electric energy is reduced.

Still further, a battery 6 is fixed above the guide rail 11, a transmission case 32 is provided in the middle of the housing 1, the battery 6 is provided on the right side of the transmission case 32 with respect to the transmission case 32, and a motor 31 is provided on the left side of the transmission case 32 with respect to the transmission case 32. The transmission case 32 is arranged in the middle of the shell 1, the battery 6 is arranged on the right side of the transmission case 32, and the motor 31 is arranged on the left side of the transmission case 32, so that the weight distribution of the whole noodle machine is relatively uniform, the gravity center of the noodle machine in a vertical state is relatively close to the position of the handle, the noodle machine is not so hard to hold by a user when being favorable for making noodles, and the hand feeling is good.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, or alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The utility model provides a noodle, includes casing, noodle pressing dish, drive assembly and the screw rod that is equipped with the guide rail, its characterized in that: the dough pressing disc is directly fixedly connected with the front end of the screw rod, the screw rod is provided with a sleeve which is in threaded connection with the screw rod, the driving assembly is connected with the sleeve, and when the driving assembly drives the sleeve to rotate, the screw rod can be driven to slide along the guide rail, and the screw rod slides to drive the dough pressing disc to move so as to extrude dough.

2. A noodle machine according to claim 1, wherein the rear end of the screw is provided with a slider embedded in the guide rail.

3. A noodle machine according to claim 2, wherein the front and rear ends of one side of the guide rail are each provided with a micro switch.

4. A noodle machine according to claim 3, wherein one side of the slider is provided with an outwardly extending tab for activating the micro-switch.

5. The noodle machine of claim 1, wherein the drive assembly comprises a motor and a gear box with a gear disposed therein.

6. The noodle machine of claim 5, wherein a planar bearing is provided on one side of the sleeve, the planar bearing being mounted in a recess of the transmission housing.

7. The noodle machine of claim 5, wherein the sleeve is disposed within the transmission housing, the sleeve having an external gear engaged with the transmission gear.

8. The noodle machine of claim 7, wherein the transmission gear comprises a driving gear, a first coaxial gear set, a second coaxial gear set and a third coaxial gear set, the driving gear is fixed on a rotating shaft of the motor, and the first coaxial gear set, the second coaxial gear set and the third coaxial gear set are respectively pivoted on the transmission case.

9. The noodle machine of claim 8, wherein the large gear of the first coaxial gear set meshes with the drive gear, the small gear of the first coaxial gear set meshes with the large gear of the second coaxial gear set, the small gear of the second coaxial gear set meshes with the large gear of the third coaxial gear set, and the small gear of the third coaxial gear set meshes with the outer gear of the sleeve.

10. The noodle machine of claim 5, wherein a battery is fixed above the guide rail, the transmission case is provided in the middle of the housing, the battery is provided on the right side of the transmission case with respect to the transmission case, and the motor is provided on the left side of the transmission case with respect to the transmission case.