KR200300204Y1 - A noodle making machine - Google Patents

Abstract

The present invention relates to a noodle making machine, and more specifically, the noodle machine main body is formed into parts for each function so as to be disassembled and assembled with each other, so that processing of each part can be independently performed, thereby securing precision of machining. By improving the precision, it is possible to further improve the adhesion to narrow the gap difference between the screw and each part.In addition, the adhesion improves the straightness determined by the extrusion force compared to the driving force by increasing the feeding amount and the conveying pressure of the dough by screw rotation. Regarding the noodle machine to increase the performance and efficiency of the noodle machine, which is provided with a noodle machine body 200 including an extrusion screw 230 and the dough screw 240 on the upper side of the base 100, the noodle machine The rear side of the main body 200 is connected to and supported by the gear box 120, the noodle machine body 200 is the front and rear A screw through holes 12 and 13 of the hopper above the apertured frame (1) and having; An adapter 2 detachably coupled to the front portion of the hopper frame 1 and having a screw insertion tube 21 and a screw tongue groove 22 in a shape corresponding to the screw through holes 12 and 13. Wow; The extruded case 3 detachably coupled to the screw insertion tube 21 of the adapter 2 enables the hopper frame, the adapter and the extruded case to be individually processed independently, thereby providing precision of processing. In addition, the precision improves the adhesion that narrows the gap between the screw and each part, thereby increasing the conveying amount and conveying pressure of the dough by screw rotation, thereby improving the straightness determined by the extrusion force versus the driving force. This has the effect of further increasing the performance and efficiency of the noodle making machine. In addition, cleaning, which is emerging as another key factor in the noodle making machine, has the effect of eliminating the problems caused by the hardening of the dough and being fixed inside the noodle machine.

Description

Noodle making machine {A noodle making machine}

The present invention relates to a noodle making machine, and more specifically, the noodle machine main body is formed into parts for each function so as to be disassembled and assembled with each other, so that processing of each part can be independently performed, thereby securing precision of machining. By improving the precision, it is possible to further improve the adhesion to narrow the gap difference between the screw and each part.In addition, the adhesion improves the straightness determined by the extrusion force compared to the driving force by increasing the feeding amount and the conveying pressure of the dough by screw rotation. The present invention relates to a noodle making machine that can enhance the noodle making machine's performance and efficiency.

As is well known, the noodle making machine kneads by mixing a proper amount of various grains and moisture, and the dough is extruded through a nozzle by a mechanical operation, the conventional noodle making machine is shown in FIG. As described above, a noodle machine main body 200 is provided on an upper side of the base 100 including the driving motor 110, and a rear side of the noodle machine main body 200 is connected to the drive box 110. Are connected and supported.

In addition, the noodle machine body 200 is formed with a hopper frame 210 in which an opening portion 216 is formed at a rear upper side and a hopper 220 having an inlet 221 is mounted at the center thereof, and is integrated into the front side of the hopper frame 210. And a pair of screw through-holes 214 and 215 extending inwardly and communicating with each other, respectively, and comprising a screw housing 211 penetrating forward and rearward, and connected to a front end of the screw housing 211 at a front end thereof. Extrusion case 250 having a nozzle 251 is coupled to the flange (212, 252), for this purpose fastening hole 253 and fixing hole 213 is formed in the flange (212, 252), The bolt 254 is fastened.

In addition, the hopper frame 210, the screw housing 211, the extrusion case 250 inside the pair of dough screw 240 and the extrusion screw 230 of the drive motor 110 is built in the base 100 They are rotatably arranged in such a way that they are engaged in opposite directions by the driving force.

The noodle machine configured as described above inputs grains and an appropriate amount of moisture to the hopper 220, and the added grains and moisture are kneaded by rotating the screw inside the hopper frame 210 through the inlet 221 of the hopper 220 ( 240 is kneaded by the extrusion screw 230, the dough is transferred back to the extrusion case 250 by the extrusion screw 230, the surface through the tip nozzle 251 of the extrusion case 250 Extrusion allows the production of a series of cotton.

On the other hand, in the noodle making machine, the most important thing is to narrow the gap between the screw housing 211 and the extrusion case 250 and the extrusion screw 230 therein to increase the adhesion, and the amount of transfer of the dough by the screw rotation by the adhesion And to increase the feed pressure to improve the straightness determined by the extrusion force relative to the driving force, the straightness determines the performance and efficiency of the noodle machine.

However, conventionally, a bicylindrical screw housing is integrally formed in the upper opening hopper frame having a square flange, which makes machining with a lathe or the like difficult and inevitably degrades. There is a problem in that the performance and efficiency of the noodle making machine according to the straightness decrease due to lack of adhesion between the screw and each component.

In addition, in the related art, since the hopper frame and the bicylindrical screw housing are formed integrally as described above, the inside of the noodle machine body and the screw are not easily cleaned, and as a result, the dough is hardened so that the inside of the screw and the noodle machine body are hardened. There has been a problem that results in an operating load due to sticking.

The present invention has been devised to solve the conventional problems as described above, the purpose of which is to make the assembly of the noodle body by each function by disassembly and assembly to each other, the processing for each component is made independently This ensures the precision of processing and thereby improves the adhesion that narrows the gap between the screw and each part by the precision, and increases the feed amount and feed pressure of the dough by screw rotation. It is to improve the performance and efficiency of the noodle making machine by improving the straightness which is determined by the extrusion force compared to the driving force.

In addition, by disassembly and assembly as described above to solve the problems caused by the cleaning, which is emerging as another key in the noodle machine, that the dough is hardened and fixed in the screw and the noodle machine body.

In order to achieve the object of the present invention is provided a noodle machine body including an extrusion screw and kneading screw on the upper side of the base, the rear side of the noodle machine body is connected to and supported by the gear box, the noodle machine body is front and rear An hopper frame of an upper opening type having a screw through hole on the side; An adapter detachably coupled to the front surface of the hopper frame and having a screw insertion tube and a screw mounting groove in a shape corresponding to the screw through hole; There is provided a noodle maker comprising an extrusion case detachably coupled to a screw insertion tube of the adapter.

In addition, the adapter is formed with a fixing flange having a fastening hole in the shape corresponding to the front portion of the hopper frame, the outer surface of the screw through hole in the front of the hopper frame to form a fixing hole corresponding to the fastening hole to the bolt fastening By means of being detachably coupled to each other; The extrusion case is characterized in that configured to be detachably coupled by screw coupling to the screw insertion tube of the adapter.

In addition, it characterized in that the dough portion is configured by extending the screw insertion tube and the screw tongue groove of the adapter to a predetermined length.

In addition, the dough portion is characterized in that it is formed at a ratio of less than half the full length of the hopper frame.

1 is an exploded perspective view showing the configuration of the present invention.

Figure 2 is a cross-sectional view of the coupled state of FIG.

Figure 3 is an exploded perspective view showing another embodiment of the present invention.

4 is a cross-sectional view of the coupled state of FIG.

Figure 5 is an exploded perspective view showing a conventional noodle maker configuration.

* Explanation of symbols for the main parts of the drawings

1: Hopper frame

11: Opening 12, 13: screw through hole

14: Fixed work

2: adapter

21: screw insertion pipe 22: screw stocking groove

23: fixed flange 24: fastener

25: inner spiral

3: extrusion case

31: Nozzle 32: Outer helix

33: Bolt

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the present invention according to the embodiment.

This noodle machine is provided with a noodle machine body 200 including an extrusion screw 230 and a dough screw 240 on the upper side of the base 100 as usual, the rear side of the noodle machine body 200 is the base ( 100 is connected to and supported by the gearbox 120 associated with the internally mounted drive motor 110 (see FIG. 5).

In such a noodle making machine, the present invention is characterized in that the hopper frame 1 and the adapter 2, the extrusion case 3 is configured to be mutually disassembled and assembled as shown in FIG. As one, in particular, the hopper frame 1 is formed independently, characterized in that the extrusion case 3 is configured to be connected to the hopper frame 1 by the adapter (2).

In more detail, the hopper frame 1 has a rectangular shape as a whole, and is formed in an upper opening shape having an opening portion 11 to the upper side as usual, and the front and rear sides have a pair of communicating with the inside. The screw through holes 12 and 13 are formed to communicate with each other so that the extrusion screw 230 and the dough screw 240 are formed therein through the hopper frame 1 through the screw through holes 12 and 13. It is configured to be mounted.

The adapter 2 is composed of a fixing flange 23 of a substantially rectangular shape corresponding to the front portion of the hopper frame 1 is provided detachably to the hopper frame 1 by fastening the bolt 33, To this end, a plurality of fastening holes 24 are formed in the fixing flange 23, and fixing holes 14 corresponding to the fastening holes 24 are formed in the front portion of the hopper frame 1.

And screw shafts communicating with each other in the central portion of the fixed flange 23 so that the extrusion screw 230 can be passed to the extrusion case 3 to be described later while rotatably supporting the dough screw 240 in the hopper frame 1 The tongue groove 22 and the screw insertion pipe 21 having some protruding length toward the front side are formed to communicate with each other.

Along with this, a cylindrical extrusion case 3 having a nozzle 31 at the front end of the adapter 2 is detachably connected and supported by helical coupling, and for this purpose, a screw insertion tube of the adapter 2 ( 21) The inner spiral portion 25 is formed inside, and the outer spiral portion 32 is formed on the end side of the extrusion case (3).

FIG. 2 is a cross-sectional view illustrating the coupling state of FIG. 1, and as shown in FIG. 1, the adapter 2 matches the fastening hole 24 of the fixing flange 23 with the fixing hole 14 of the hopper frame 1 to be bolted. (33) is coupled to the front portion of the hopper frame (1) by fastening, the extrusion case (3) inside the screw insertion tube (21) of the adapter (2) the outer spiral portion 32 formed on the outside of the end portion It is connected and assembled by helically coupling to the inner spiral portion 25 formed in the groove.

On the other hand, the extrusion screw 230 and the dough screw 240 in the hopper frame 1 is driven through the gear box 120 associated with the drive motor 110 provided in the base 100 as in the prior art Since a detailed description thereof will be omitted (see FIG. 5).

And the present invention is a variety of grains and moisture is introduced through the opening 11 of the hopper frame 1, the injected raw material to the extrusion screw 230 and the dough screw 240 to rotate in the opposite direction inside each other The dough is kneaded again, and the dough is brought into close contact with the front end side of the extrusion case 3 by the extrusion screw 230 to produce a surface through the nozzle 31 of the extrusion case 3 as usual.

Here, the most characteristic is the adapter (2) which allows the extrusion screw 230 to penetrate while rotatably supporting the dough screw 240 without forming a separate dough unit integrally formed in the hopper frame 1 as in the prior art By using the extrusion case 3 is to be connected to the front side of the hopper frame 1, by the disassembly and assembly of the hopper frame (1), adapter (2), extrusion case (3) independently By processing, it is possible to secure the precision of the processing, and thus, the straightness, that is, the gap between the extrusion screw 230, the hopper frame 1, the adapter 2, and the extrusion case 3 is extremely narrowed, and thus the adhesion is achieved. It is to improve the height.

3 is an exploded perspective view showing another embodiment of the present invention, as shown in the present invention, as in this embodiment, the fastening hole 24 in the front portion of the hopper frame 1 having a fixing hole 14 The fixing flange 23 having a structure is configured to be coupled to the hopper frame 1 by the fastening bolts 33, the extrusion case 3 having a nozzle 31 at the front end is It is configured to be connected to each other by allowing the outer spiral portion 32 on the end side to be spirally coupled to the inner spiral portion 25 formed inside the screw insertion tube 21 of the adapter 2, and other configurations and Detailed description of the operation is the same as in the embodiment and will be omitted.

The most characteristic here is that the separate kneading portion 4 is formed integrally on the front side of the adapter 2 without integrally extending to the hopper frame 1 as in the prior art, the kneading portion 4 The screw insertion tube 21 and the screw shaft groove 22 of the adapter 2 is configured to extend to a predetermined length (L1) (L2), the extension length (L1) (L2) of the hopper frame (1) is formed at a ratio of 1/2 or less of the total length, substantially the dough is sufficient only by the extrusion screw 230 and the dough screw 240 inside the hopper frame (1), Applicable where necessary.

As described above, the present invention allows the extrusion case to be connected to the front side of the hopper frame by an adapter, and the adapter is configured to be assembled and disassembled on the hopper frame, thereby independently processing the hopper frame, the adapter, and the extrusion case independently. It is possible to secure the precision of processing, and the precision improves the adhesion that narrows the gap between the screw and each part, thereby increasing the feeding amount and the conveying pressure of the dough by screw rotation, thereby increasing the driving force. By improving the straightness, which is determined by the comparative extrusion force, there is an effect that can further increase the performance and efficiency of the noodle making machine.

In addition, the present invention has the effect of solving the problem of cleaning, which is emerging as another key point in the noodle machine, that is, the dough is hardened and fixed in the screw and the noodle machine body.

Claims (4)

The upper side of the base 100 is provided with a noodle machine body 200 including an extrusion screw 230 and dough screw 240, the rear side of the noodle machine body 200 is connected to and supported by the gear box 120 In The noodle machine body 200 includes an upper opening hopper frame 1 having screw through holes 12 and 13 at the front and rear sides thereof; An adapter 2 detachably coupled to the front portion of the hopper frame 1 and having a screw insertion tube 21 and a screw tongue groove 22 in a shape corresponding to the screw through holes 12 and 13. Wow; Noodle maker, characterized in that consisting of an extrusion case (3) detachably coupled to the screw insertion tube (21) of the adapter (2). The method of claim 1, The adapter 2 has a fixing flange 23 having a fastening hole 24 in a shape corresponding to the front portion of the hopper frame 1, the front screw through hole 12 of the hopper frame 1 (13) configured to form a fixing hole (14) corresponding to the fastening hole (24) on the outside to be detachably coupled to each other by fastening the bolt (33); The extruder case (3) is a noodle maker, characterized in that configured to be detachably coupled by screw coupling to the screw insertion tube (21) of the adapter (2). The method of claim 1, The noodle maker according to claim 1, wherein the screw insertion tube (21) and the screw tongue groove (22) of the adapter (2) extend to a predetermined length (L1) (L2). The method of claim 3, The dough unit (4) is noodle maker, characterized in that formed in the ratio of less than half the full length of the hopper frame (1).