CN112293444A

CN112293444A - Vertical noodle press

Info

Publication number: CN112293444A
Application number: CN202011315036.0A
Authority: CN
Inventors: 李一峰; 熊道波; 曾啟锋
Original assignee: Bear Electrical Appliance Co Ltd; Foshan Bear Kitchen Electric Appliance Co Ltd
Current assignee: Bear Electrical Appliance Co Ltd; Foshan Bear Kitchen Electric Appliance Co Ltd
Priority date: 2020-11-21
Filing date: 2020-11-21
Publication date: 2021-02-02

Abstract

The invention discloses a vertical noodle press, which comprises a base, a main machine and a driving device, wherein the main machine is arranged on the base; the main machine comprises a lower shell assembled on the base, an assembling connecting piece fixed on the lower shell and a wheaten food processor detachably assembled on the lower shell, wherein the assembling connecting piece is provided with an assembling groove; the driving device comprises a bracket fixedly connected with the assembly connecting piece, a motor fixed on the bracket and vertically arranged in the base, a power shaft with the tail end arranged in the assembly groove, and a transmission assembly connected between an output shaft of the motor and the power shaft; one end of the wheaten food processor is arranged to be an assembling end matched with the assembling groove, the end face of the assembling end is provided with a rotating shaft, and the wheaten food processor is inserted into the assembling groove through the assembling end so as to enable the rotating shaft to be in transmission connection with the power shaft. The invention has simple structure and convenient assembly and use, and can be matched with cooked wheaten food processors with different functions to meet the actual use requirement.

Description

Vertical noodle press

Technical Field

The invention relates to the field of household appliances, in particular to a vertical noodle press.

Background

This section merely provides background information related to the present application so as to enable those skilled in the art to more fully and accurately understand the present application, which is not necessarily prior art.

The oodle maker all has the oodle maker and realizes the oodle maker's oodle maker operation through the oodle maker, and the oodle maker on the current oodle maker all can not dismantle, has the inconvenient problem of user's use, for example: the noodle press is inconvenient to clean, and water easily flows into a noodle press main body through the noodle press, so that the noodle press is burnt out or rusted; or, it is inconvenient to store the noodle press, and the noodle press cannot be disassembled to cause large occupied space of the noodle press, so that the noodle press is inconvenient to store.

Chinese patent application CN2012102880825 discloses a manual and automatic integrated noodle maker. The scheme has a complex integral structure, only provides a noodle cutting function, and cannot meet the diversified wheaten food processing requirements of users; although the section structure can be detached, the section structure is embedded in the shell, so that dough fragments are easily left in the shell after use, the detachment is difficult, and the section structure is difficult to clean.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a vertical noodle press which is simple in structure, convenient to assemble and use and can be matched with cooked wheaten food processors with different functions to meet the actual use requirement.

The invention is realized by adopting the following technical scheme: a vertical noodle press comprises a base, a main machine and a driving device; the main machine comprises a lower shell assembled on the base, an assembling connecting piece fixed on the lower shell and a wheaten food processor detachably assembled on the lower shell, wherein the assembling connecting piece is provided with an assembling groove; the driving device comprises a bracket fixedly connected with the assembly connecting piece, a motor fixed on the bracket and vertically arranged in the base, a power shaft with the tail end arranged in the assembly groove and a transmission assembly connected between an output shaft of the motor and the power shaft, wherein the projection of the central axis of the power shaft on the plane where the central axis of the output shaft of the motor is located is intersected with the central axis of the output shaft of the motor; one end of the wheaten food processor is arranged to be an assembling end matched with the assembling groove, the end face of the assembling end is provided with a rotating shaft, and the wheaten food processor is inserted into the assembling groove through the assembling end so as to enable the rotating shaft to be in transmission connection with the power shaft.

In a preferred embodiment, the tail end of the power shaft is exposed out of the assembly groove, the end face of the assembly tail end is provided with a transmission hole, and the tail end of the rotating shaft is located in the transmission hole, so that the rotating shaft is in transmission connection with the power shaft to enable the power shaft to be inserted into the transmission hole.

In a preferred embodiment, a locking mechanism is arranged between the pasta processor and the main machine, the locking mechanism comprises a lock catch arranged on one of the pasta processor and the main machine and a buckle hole correspondingly arranged on the other of the pasta processor and the main machine, and the lock catch is buckled with the buckle hole to lock and connect the pasta processor and the main machine.

In a preferred embodiment, the buttonhole is provided on the pasta processor; the assembly connecting piece is provided with a key hole and a lock hole, the lock catch comprises a key arranged in the key hole and exposed out of the host machine, a buckling piece fixedly connected with the key and an elastic piece arranged below the buckling piece, the buckling piece comprises a buckling body arranged between the key and the elastic piece and a buckling tongue extending from the buckling body, and the buckling tongue extends out of the lock hole and faces the buckling hole.

In a preferred embodiment, the base is provided with a mounting cavity, the lower shell is provided with a mounting opening corresponding to the mounting cavity, and the support is arranged through the mounting opening so that the motor can be vertically placed in the mounting cavity; the last end of support is equipped with the keysets, and assembly connecting piece is fixed continuous with the keysets.

In a preferred embodiment, the transmission assembly comprises a worm connected with the upper tail end of the output shaft of the motor and a worm wheel in meshed connection with the worm, and the tail end of the power shaft is fixed at the center of the worm wheel; or the transmission assembly comprises a first helical gear and a second helical gear which are connected in a meshed mode, the first helical gear is fixedly connected with the upper tail end of the output shaft of the motor, and the second helical gear is fixedly connected with one tail end of the power shaft.

In a preferred embodiment, the pasta processor comprises a housing and a processing assembly disposed within the housing; the shell consists of a bottom cover with a feed inlet on the top end surface and a top cover with a discharge outlet on the bottom end surface; the processing assembly comprises a pair of rotary workpieces which are arranged in an opposite rotating mode, a rotating shaft is arranged in the center of each rotary workpiece, a synchronous gear is arranged at the same tail end of each rotating shaft, the two synchronous gears are connected in a meshed mode, and the tail end of one rotating shaft is located on the end face of the tail end of the assembling shaft and connected with the tail end of the power shaft in a transmission mode.

In a preferred embodiment, a scraper is arranged below each rotating workpiece, the scraper comprises a cutter body and a cutting edge extending from one side edge of the cutter body, the cutting edge is arranged in a bending mode relative to the cutter body, the cutting edge is attached to the surface of the lower half portion of the rotating workpiece, and the extending direction of the cutting edge relative to the cutter body is opposite to the rotating direction of the rotating workpiece.

In a preferred embodiment, the rotating workpiece is a flour pressing barrel; a noodle pressing gap is formed between the two noodle pressing cylinders, and the feeding port and the discharging port are respectively positioned above and below the noodle pressing gap.

In a preferred embodiment, the rotary workpiece is a roller with a slitting knife on the surface; the two rollers are arranged in opposite rotation, and the slitting knives of the two rollers are arranged in an intersecting manner.

Compared with the prior art, the invention has the following beneficial effects:

1. the vertical structure of the main machine is arranged on the base, the motor is vertically arranged in the base, the wheaten food processor is transversely arranged on the main machine, the structure that the motor and the wheaten food processor are transversely arranged on the main machine in the prior art is abandoned, the structure of the transmission assembly can be simplified, the transmission efficiency of the driving device for the wheaten food processor can be improved, and the whole size of the noodle pressing machine can be reduced.

2. The motor and the transmission assembly are assembled into the driving device with an integrated structure through the bracket, so that the connection stability of all parts is enhanced, and a realization condition is provided for simplifying assembly; meanwhile, the driving device is fixedly connected with the assembly connecting piece through the support, so that the driving device is conveniently assembled with the base and the host, and the assembly difficulty is simplified.

3. The driving device is arranged in the main machine and the base, the wheaten food processor serves as an independent component, the main machine is internally provided with the assembly connecting piece with the assembly groove, the wheaten food processor is assembled by matching the assembly tail end with the assembly groove, and the wheaten food processor is detachable relative to the main machine, so that the wheaten food processor is convenient to detach and clean, a user can use the main machine with the wheaten food processors with different functions in the actual use process, and the actual use requirements of wheaten food processing are met.

Drawings

Fig. 1 is a schematic perspective view of a vertical noodle press.

Fig. 2 is a schematic perspective exploded view of the vertical noodle press.

Fig. 3 is a schematic view of an assembly structure of the driving device and the lower case.

Fig. 4 is a schematic view showing the internal structure of the driving device of the vertical noodle press.

Figure 5 is a schematic view of the exploded structure of the first embodiment of the pasta processor.

Fig. 6 corresponds to the internal structural representation of the pasta processor of fig. 5, the dashed lines with arrows indicating the opposite rotation direction of the two rotating workpieces.

Figure 7 is a schematic view of the internal structure of the vertical pasta press using the pasta maker shown in figure 5.

Figure 8 is a schematic view of the exploded structure of a second embodiment of the pasta processor.

Figure 9 is a schematic view of the internal structure of the vertical pasta press using the pasta maker shown in figure 8.

Figure 10 corresponds to the internal structural schematic of the pasta processor of figure 8.

Detailed Description

To further clarify the technical solutions and effects adopted by the present application to achieve the intended purpose, the following detailed description is given with reference to the accompanying drawings and preferred embodiments according to the present application. In the following description, different "one embodiment" or "an embodiment" refers to not necessarily the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Referring to fig. 1-4, the present invention discloses a vertical noodle press (also called "noodle press" for short), which comprises a base 1, a main frame 2 and a driving device 3; the main machine 2 comprises a lower shell 21 assembled on the base 1, an assembling connector 23 fixed on the lower shell 21 and a pasta processor 5 detachably assembled on the lower shell 21, wherein the assembling connector 23 is provided with an assembling groove 231; the driving device 3 comprises a bracket 31 fixedly connected with the assembly connecting piece 23, a motor 32 fixed on the bracket 31 and vertically arranged in the base 1, a power shaft 36 with the tail end arranged in the assembly groove 231 and a transmission assembly connected between an output shaft of the motor 32 and the power shaft 36, wherein the projection of the central axis of the power shaft 36 on the plane of the central axis of the output shaft of the motor 32 is intersected with the central axis of the output shaft of the motor 32; one end of the pasta processor 5 is provided with an assembling end 514 matched with the assembling groove 231, and the end surface of the assembling end 514 is provided with a rotating shaft 522 used for driving the pasta processor 5 to process pasta; the pasta processor 5 is removably mounted to the lower housing 21 by inserting the mounting tip 514 into the mounting groove 231 to drivingly connect the shaft 522 to the power shaft 36.

The rotating shaft 522 is in transmission connection with the power shaft 36, and includes both direct transmission connection and indirect transmission connection achieved by the connector and other components.

Compared with the prior art, the vertical noodle press disclosed by the invention adopts the following innovative technical means and achieves the corresponding beneficial technical effects:

1. adopt the vertical structure that sets up host computer 2 on the base 1, put motor 32 vertically and set up in base 1 to transversely establish wheaten food processor 5 on host computer 2, abandoned prior art and all transversely established the structure on host computer 2 with wheaten food processor 5, not only can simplify transmission assembly's structure, can also improve drive arrangement 3 and eat the transmission efficiency of processor 5 to the face, and be favorable to reducing the overall size of oodle maker.

2. The motor 32 and the transmission assembly are assembled into the driving device 3 of an integrated structure through the bracket 31, so that the connection stability of all parts is enhanced, and a realization condition is provided for simplifying assembly; meanwhile, the driving device 3 is fixedly connected with the assembling connecting piece 23 through the support 31, so that the driving device is conveniently assembled with the base 1 and the host machine 2, and the assembling difficulty is simplified.

3. The invention arranges the driving device in the main machine 2 and the base 1, the wheaten food processor 5 is used as an independent component, the main machine 2 is internally provided with the assembly connecting piece 23 with the assembly groove 231, the wheaten food processor 5 is assembled by matching the assembly tail end 514 with the assembly groove 231, the wheaten food processor 5 can be disassembled relative to the main machine 2, which not only facilitates the disassembly and cleaning of the wheaten food processor 5, but also facilitates the use of the main machine 2 with the wheaten food processors 5 with different functions in the actual use process of a user, and meets the actual use requirements of wheaten food processing.

In one embodiment, the end of the power shaft 36 is exposed out of the fitting groove 231, while the end surface of the fitting end 514 is provided with a driving hole 519, and the end of the rotating shaft 522 is located in the driving hole 519. Thus, when the pasta processor 5 is inserted into the mounting groove 231 of the main body 2 through the mounting tip 514, the power shaft 36 is inserted into the driving hole 519 and is drivingly connected to the rotating shaft 522. This configuration improves the security of the assembly of the pasta maker 5 to the main body 2 by inserting the power shaft 36 into the drive bore 519.

In one embodiment, the lower housing 21 is provided with a support blade 211 at the lower end of the mounting groove 231 and extending horizontally, and when the pasta processor 5 is mounted on the main body 2, the support blade 211 provides support to the pasta processor 5, further improving the mounting stability of the pasta processor 5 on the main body 2. Furthermore, in order to improve the working stability of the noodle press, a bottom plate 11 is arranged at the lower end of the base 1. For example, the bottom plate 11 is located directly below the support blade 211, and the size of the bottom plate 11 is not smaller than the size of the support blade 211. Through setting up the bottom plate 11 of placing in the mesa on base 1, make vertical oodle maker place make the focus more steady and difficult the appearance rocking at the mesa to the shake noise at the during operation is showing and is reducing, thereby promotes the stationarity of vertical oodle maker during operation.

In one embodiment, a locking mechanism is provided between the pasta processor 5 and the main body 2, by which the connection is more secure when the pasta processor 5 is assembled on the main body 2, and the pasta processor 5 is prevented from loosening relative to the main body 2 to ensure that the rotating shaft 522 and the power shaft 36 maintain a secure driving connection. Specifically, the locking mechanism includes a lock catch provided on one of the pasta processor 5 and the main body 2 and a corresponding lock hole 56 provided on the other of the pasta processor 5 and the main body 2, and the pasta processor 5 is locked and connected to the main body 2 by engaging the lock catch with the lock hole 56.

In one embodiment, the catch is provided on the mounting link 23 and the catch hole 56 is provided on the pasta-processor 5. Specifically, the fitting connector 23 is provided with a key hole 232 and a lock hole 233; the lock catch comprises a key 24 arranged in the key hole 232 and exposed out of the host machine 2, a buckling piece 25 fixedly connected with the key 24 and an elastic piece arranged below the buckling piece 25, the buckling piece 25 comprises a buckling body arranged between the key 24 and the elastic piece and a buckling tongue extending out of the buckling body, the tail end of the buckling tongue is provided with a buckling part which can be buckled and connected with the buckling hole 56, and the buckling tongue extends out of the locking hole 233 towards the buckling hole 56. Therefore, when the key 24 is pressed, the fastener 25 moves downwards in the pressing direction, and the elastic member is compressed to accumulate elastic force; when the button 24 is released, the elastic member drives the buckling member 25 to reset.

When the mounting end 514 of the pasta-processor 5 is mounted to the mounting groove 231 of the main body 2, there are two ways to allow the locking buckle to be connected with the buckle hole 56 by the buckle tongue: firstly, after the button 24 is pressed down, the buckling part at the tail end of the buckle tongue extends into the buckle hole 56, and then the button 24 is loosened, so that the buckling part 25 moves towards the button 24 under the restoring elasticity of the elastic piece, and the buckling part at the tail end of the buckle tongue is buckled and connected with the buckle hole 56; secondly, the buckling part at the tail end of the buckle tongue is abutted against the hole edge of the buckle hole 56, and a downward acting force is generated on the buckling part, so that the buckling piece 25 moves downwards in the direction away from the key 24 and the elastic piece is compressed until the buckling part at the tail end of the buckle tongue slides into the buckle hole 56, and the buckling part at the tail end of the buckle tongue is in buckling connection with the buckle hole 56 under the action of the elastic piece. On the contrary, when the pasta processor 5 needs to be disassembled and washed for cleaning, or the pasta processor 5 with different functions is replaced to be matched with the host machine 2 for use, the button 24 is pressed, the button 24 drives the buckling piece 25 to move downwards to enable the buckling tongue to be separated from the buckling connection relation with the buckling hole 56, and then the pasta processor 5 is pulled out towards the direction far away from the assembly groove 231. Therefore, the assembly and disassembly operations of the noodle processing device 5 are very simple and convenient to operate and use.

In one embodiment, the snap hole 56 is formed at an end surface of the fitting end 514, and the locking hole 233 is correspondingly formed in the fitting recess 231. This structure is advantageous in improving the reliability of the connection of the fitting tip 514 when it is inserted into the fitting groove 231.

As shown in fig. 3 and 4, the base 1 has a mounting cavity 12, the lower housing 21 has a mounting opening 212 corresponding to the mounting cavity 12, the motor 32 is fixed at the lower end of the bracket and is vertically disposed in the mounting cavity 12, the transmission assembly is fixed at the upper end of the bracket, and the upper end of the bracket passes through the mounting opening 212 and is exposed out of the lower housing 21. In addition, the upper end of the bracket 31 is provided with the adapter plate 311, and the assembly connecting piece 23 is fixedly connected with the adapter plate 311, so that the assembly connecting piece 23 and the driving device 3 are assembled into an independent module, and the assembly, disassembly and maintenance are convenient in the assembly and use processes.

During assembly, the motor 32, the transmission assembly and the bracket 31 are assembled into a whole to form the driving device shown in fig. 3; then, the lower case 21 is assembled on the base 1, and at this time, the mounting opening 212 is arranged corresponding to the mounting cavity 12; inserting the lower end of the driving device 3 through the mounting opening 212, so that the motor 32 is vertically arranged in the mounting cavity 12, and the assembly connecting piece 23 is positioned on the lower shell 21; finally, the fitting connector 23 is fixed to the lower case 21, and the fitting is completed. Specifically, the assembly connector 23 is provided with a fixing hole, the lower housing 21 is correspondingly provided with a stud 213, and the assembly connector 23 can be fixed on the lower housing 21 by fixing members such as screws penetrating through the fixing hole and fixing the stud 213 at the corresponding position, so as to assemble and fix the base 1, the main body 2 and the driving device 3, and the assembly operation is very simple.

Therefore, the motor 32 and the transmission assembly are assembled into the integrated driving device 3 through the bracket 31, the connection stability among all parts is enhanced, the motor 32 and the transmission assembly are not limited by the shell as in the prior art when being assembled and connected, the realization condition is provided for simplifying the assembly, the connection between the motor 32 and the transmission assembly is more compact, the transmission distance between the motor 32 and the pasta processor 5 is reduced, and the transmission efficiency is improved; meanwhile, the driving device 3 is assembled with the base 1 and the main machine 2 through the bracket 31, so that the assembly difficulty is simplified, the motor 32 is vertically arranged in the mounting cavity 12 of the base 1, and meanwhile, the projection of the central axis of the power shaft 36 (or the central axis of the wheaten food processor 5) on the plane where the central axis of the output shaft of the motor 32 is positioned is intersected with the central axis of the output shaft of the motor 32, so that the structure of a transmission assembly is simplified, the transmission between the motor 32 and the wheaten food processor 5 is not easy to be dislocated, and the transmission reliability is higher.

In one embodiment, the transmission assembly includes a worm 34 connected to an upper end of an output shaft of the motor 32 and a worm gear 35 meshingly connected to the worm 34, and an end of a power shaft 36 is fixed to a center of the worm gear 35. In another embodiment, the transmission assembly includes a first helical gear fixedly attached to the upper end of the output shaft of the motor 32 and a second helical gear fixedly attached to an end of the power shaft 36 in meshing engagement. Therefore, the motor 32 drives the power shaft 36 to rotate through the transmission assembly, and is in transmission connection with the tail end of the power shaft 36 through the rotating shaft 522, so that the motor 32 drives the pasta processor 5 to provide a pasta processing function.

The pasta processor 5 is a slitter providing a noodle cutting function, a noodle press providing a noodle pressing function, or a device providing other pasta processing functions.

Referring to fig. 5 to 7, this embodiment is shown by taking the pasta maker 5 as a noodle press. The dough pressing device comprises a shell 51 consisting of a bottom cover 511 with a feeding hole 513 on the top end surface and a top cover 512 with a discharging hole on the bottom end surface, a processing assembly 52 arranged in the shell 51 and a scraper 53 arranged below the processing assembly 52; the processing assembly 52 includes a pair of rotating workpieces 521 arranged in an opposite rotating manner, a rotating shaft 522 is arranged at the center of each rotating workpiece 521, a synchronizing gear is respectively arranged at the same end of each rotating shaft 522, the two synchronizing gears are meshed and connected, and the end of one rotating shaft 522 is located at the end face of the assembling end to be in transmission connection with the end of the power shaft 36, so that the driving device drives the noodle press to work through the power shaft 36 to drive the two noodle press cylinders to synchronously rotate in opposite directions to perform noodle pressing work.

Wherein the scraper blade 53 comprises a blade body 531 and a blade edge 532 extending from one side edge of the blade body 531, the blade edge 532 is attached to the lower half surface of the rotating workpiece 521, and the extending direction of the blade edge 532 relative to the blade body 531 is opposite to the rotating direction of the rotating workpiece 521, so that the rotating workpiece 521 scrapes off the dough pieces remaining on the surface of the rotating workpiece 521 through the blade edge 532 during the rotation.

The cutting edge 532 is bent with respect to the blade body 531, so that the cross section of the scraper 53 is bent or curved. This structure allows the cutting edge 532 to have a certain self elastic deformation with respect to the blade body 531, and the cutting edge 532 can be ensured to be always attached to the lower half surface of the rotary workpiece 521 during use by the self elastic deformation.

A fixing portion 533 is extended from the other side of the blade body 531 opposite to the blade 532, the fixing portion 533 is provided with a plurality of first fixing holes 331, the bottom cover 511 is correspondingly provided with a plurality of second fixing holes, and the scraper 53 can be fixedly mounted on the bottom cover 511 by a fixing member such as a screw.

Specifically, the rotary workpiece 521 is a flour pressing barrel, a flour pressing gap is formed between the two flour pressing barrels, and the feed port 513 and the discharge port are respectively located above and below the flour pressing gap. Therefore, after the dough is put in from the feeding hole 513, the dough enters the dough pressing gap along with the rotation of the two dough pressing cylinders to be pressed into dough sheets, and the dough sheets fall out from the discharging hole, so that the dough pressing processing is completed.

A through hole 515 is provided in the housing 51, an adjustment knob 59 is provided outside the housing 51, and the adjustment knob 59 is fixedly connected to the distal end of one of the rotating shafts 522 through the through hole 515. The vertical distance between the two rotating shafts 522 can be adjusted through the adjusting knob 59, and then the size of the dough pressing gap is adjusted, so that the dough pressing device can press dough sheets with different thicknesses as required, and the actual requirements of users are met.

In addition, as shown in fig. 1 again, the pasta processor 5 further comprises a dustproof cover 6 detachably arranged at the feed port 513, and when the pasta processor 5 is not used, the dustproof cover 6 is used for protecting the pasta processor 5, so that dust, sundries and the like are prevented from entering from the feed port 513, and the use sanitation and safety are improved.

Further with reference to fig. 8-10, this embodiment is illustrated with the pasta maker 5 being a slitter 5'. The slitter 5' differs from the dough roller in that the rotary workpiece 521 is different: the rotary workpiece 521 of the dough pressing device is a pair of dough pressing cylinders which are arranged in an opposite rotating manner, a reasonable dough pressing gap is formed between the two dough pressing cylinders so as to press dough sheets with reasonable thickness, generally, the surfaces of the dough pressing cylinders are smooth and flat, and the residual amount of dough on the dough pressing cylinders is reduced in order to not only press the dough sheets; the rotary workpiece 521 'of the noodle cutter 5' is a roller with a noodle cutter on the surface, the two rollers are arranged in opposite rotation, the respective noodle cutters of the two rollers are arranged in an intersecting manner, the intersecting distance of the respective noodle cutters of the two rollers is set to be a reasonable value n (generally 3-50mm, namely the interleaving depth of the respective noodle cutters of the two rollers is 3-50 mm) so as to utilize different intersecting distances n to cut the noodle wrappers with different thicknesses into the noodles. Therefore, the dough sheet is fed from the feed port 513 of the slitter 5 'and rotated in opposite directions by the two rotary workpieces 521', and the dough sheet is slit into noodles by the slitting knives when they intersect each other.

Therefore, the noodle press can be used in combination with the noodle press and the noodle cutter 5 ', the dough can be pressed into a dough sheet by the noodle press, the noodle press is taken down from the main machine 2, the noodle cutter 5 ' is installed on the main machine 2, and the dough sheet is put into the noodle cutter 5 ' to be processed into noodles, so that the actual requirements of the user on processing the cooked wheaten food are met, and the noodle press is convenient for the user to operate and use.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A vertical noodle press comprises a base, a main machine and a driving device; the method is characterized in that:

the main machine comprises a lower shell assembled on the base, an assembling connecting piece fixed on the lower shell and a wheaten food processor detachably assembled on the lower shell, wherein the assembling connecting piece is provided with an assembling groove;

the driving device comprises a bracket fixedly connected with the assembly connecting piece, a motor fixed on the bracket and vertically arranged in the base, a power shaft with the tail end arranged in the assembly groove and a transmission assembly connected between an output shaft of the motor and the power shaft, wherein the projection of the central axis of the power shaft on the plane where the central axis of the output shaft of the motor is located is intersected with the central axis of the output shaft of the motor;

one end of the wheaten food processor is arranged to be an assembling end matched with the assembling groove, the end face of the assembling end is provided with a rotating shaft, and the wheaten food processor is inserted into the assembling groove through the assembling end so as to enable the rotating shaft to be in transmission connection with the power shaft.

2. The vertical noodle press according to claim 1, wherein: the tail end of the power shaft is exposed out of the assembly groove, a transmission hole is formed in the end face of the assembly tail end, and the tail end of the rotating shaft is located in the transmission hole, so that the rotating shaft is in transmission connection with the power shaft, and the power shaft is inserted into the transmission hole.

3. The vertical noodle press according to claim 1, wherein: the locking mechanism is arranged between the wheaten food processor and the main machine and comprises a lock catch arranged on one of the wheaten food processor and the main machine and a buckle hole correspondingly arranged on the other of the wheaten food processor and the main machine, and the lock catch is buckled with the buckle hole to lock and connect the wheaten food processor and the main machine.

4. The vertical noodle press according to claim 3, wherein: the button hole is arranged on the wheaten food processor; the assembly connecting piece is provided with a key hole and a lock hole, the lock catch comprises a key arranged in the key hole and exposed out of the host machine, a buckling piece fixedly connected with the key and an elastic piece arranged below the buckling piece, the buckling piece comprises a buckling body arranged between the key and the elastic piece and a buckling tongue extending from the buckling body, and the buckling tongue extends out of the lock hole and faces the buckling hole.

5. The vertical noodle press according to claim 1, wherein: the base is provided with a mounting cavity, the lower shell is provided with a mounting opening corresponding to the mounting cavity, and the support penetrates through the mounting opening to enable the motor to be vertically placed in the mounting cavity; the last end of support is equipped with the keysets, and assembly connecting piece is fixed continuous with the keysets.

6. The vertical noodle press according to claim 1, wherein: the transmission assembly comprises a worm connected with the upper tail end of the output shaft of the motor and a turbine meshed with the worm, and the tail end of the power shaft is fixed in the center of the turbine; or the transmission assembly comprises a first helical gear and a second helical gear which are connected in a meshed mode, the first helical gear is fixedly connected with the upper tail end of the output shaft of the motor, and the second helical gear is fixedly connected with one tail end of the power shaft.

7. A vertical noodle press according to any one of claims 1-6, characterized in that: the wheaten food processor comprises a shell and a processing assembly arranged in the shell; the shell consists of a bottom cover with a feed inlet on the top end surface and a top cover with a discharge outlet on the bottom end surface; the processing assembly comprises a pair of rotary workpieces which are arranged in an opposite rotating mode, a rotating shaft is arranged in the center of each rotary workpiece, a synchronous gear is arranged at the same tail end of each rotating shaft, the two synchronous gears are connected in a meshed mode, and the tail end of one rotating shaft is located on the end face of the tail end of the assembling shaft and connected with the tail end of the power shaft in a transmission mode.

8. The vertical noodle press according to claim 7, wherein: all be equipped with the scraper in the below of every rotatory machined part, the scraper includes the sword body and the cutting edge that extends from a sword body side, and the relative sword body of cutting edge is buckled and is set up, and the cutting edge is attached on the surface of rotatory machined part the latter half, and the extending direction of the relative sword body of cutting edge sets up with the rotation opposite direction of rotatory machined part.

9. The vertical noodle press according to claim 7, wherein: the rotary workpiece is a flour pressing barrel; a noodle pressing gap is formed between the two noodle pressing cylinders, and the feeding port and the discharging port are respectively positioned above and below the noodle pressing gap.

10. The vertical noodle press according to claim 7, wherein: the rotary workpiece is a roller with a slitting knife on the surface; the two rollers are arranged in opposite rotation, and the slitting knives of the two rollers are arranged in an intersecting manner.