JPS6049736A - Noodle making machine structure - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a noodle making machine that rolls out noodle blocks of udon dough that have been kneaded under pressure to a predetermined thickness and then cuts them into noodle strings.

Conventionally, in noodle-making operations, separate devices are often used for a spreading device that spreads the noodle mass to a predetermined thickness and a slicing device that cuts the spread glue plate to a predetermined thickness. Furthermore, even in the case of an apparatus in which a spreading device and a slitting device are integrated, the glue plate after the spreading process has to be manually fed to the slitting device. Recently, a device has been developed that repeatedly stretches the glue plate using rolling rolls on a belt conveyor.
The usual structure is that the heald conductor is separated by two layers. This structure is because the speed of the heald conveyor when spreading the noodle mass is different from the speed of the heald conveyor when cutting the noodle mass, which not only increases the size of the device but also makes the mechanism complex. Moreover, it was expensive.

In view of this problem, in the present invention, a supply roll is arranged on one side of the main 1-ru, a drive roll is arranged on the other side, and the above-mentioned I call is arranged between the two rolls. is located inside to suspend the rolling belt conveyor, a pressing force adjustment device is provided at the upper position of the main roll, and a pressing roll which can be fixed at an appropriate position is disposed, and the driving roll is A lower heald suspended between a lower drive roll disposed below and a receiving roll mounted approximately 1°I below the supply roll. A cutting blade is disposed with its base pivoted at a suitable position on the machine body, and the cutting blade is configured to swing vertically through an operating rod connected to a mounting arm by a crank disposed at a suitable position on the machine body. , a noodle making machine structure is provided in which a noodle press roll that can be moved vertically is disposed at the rear of the cutting blade, and furthermore, the rolling helt conveyor is connected to the drive roll from the supply roll side. side, the lower heald conveyor is rotated in opposite directions from the lower drive roll side to the receiving roll side.
In addition, both belt conveyors are 5-C-
The present invention is intended to provide a noodle-making machine which is driven by an electric motor of a power control system according to R, and whose rotational speed can be freely changed.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below in detail with reference to the drawings.

(a) A supply roll 2 is rotatably mounted diagonally upward on one side of the main roll l, which is rotatably mounted on the machine body, and the main roll l is mounted diagonally on the other side. ``In two directions, drive [coal 3 is mounted on the axis, and the main rotor, supply roll 2,
A rolling conveyor held 5 is constructed by suspending a wide endless belt 4 whose surface is coated with urethane rubber or the like around a drive roll 3. A press roll 6 is disposed above the main roll l with a wide endless heald 4 interposed therebetween, and the press roll 6 is configured to be able to change its position in the vertical direction via a press horn adjustment device 7. The distance between the main roll 1 and the main roll 1 should be fixed using an appropriate locking device (constructed).
A belt pusher is configured to be able to slide and fix in a downward direction on the road and press the rolling conveyor belt 5 from the outside, and adjusts the tension of the rolling conveyor belt 5.

(b) Reference numeral 10 denotes a lower drive roll that is mounted on a shaft at a position below the drive roll 3, and a receiving roll 11 is mounted on a shaft at a position substantially diagonally below the supply roll 2, and the receiving roll 11 and the lower drive roll A lower belt conveyor 13 is constructed by suspending a wide endless heald 12 whose surface is covered with urethane rubber or the like between the belt conveyors 10 and 10. The lower driving roll IO is configured such that its position can be changed and fixed as appropriate in the direction of the receiving roll 11, and the tension of the lower belt conveyor 13 can be adjusted. Further, the receiving roll 11 has a layer of an arbitrary thickness made of a suitable rubber or synthetic resin material formed on at least the surface of the roll 11.

(C) Reference numeral 15 denotes an electric motor mounted on the machine frame at a suitable position so that the position can be freely changed. 18 to the lower drive roll 10
The upper surface of the above-mentioned rolling belt conveyor 5 is connected to the drive roll 3 from the supply roll 2 side.
side, the "-" surface of the lower belt conveyor 13 rotates in opposite directions from the lower drive roll 10 side to the nine receiving rows side (configured).
, 13, a 5-C-R electric motor with a power control type reduction gear is used.

(d) 20 is a cutting blade having a length corresponding to the working width of the lower heald conveyor 13, located at the end of rotation of the lower belt conveyor 13, and arranged perpendicular to the rotation direction; It is attached to the distal end of the mounting arm 21 so as to be detachable and vertically adjustable, and the base 22 of the arm 21 of the mounting arm 1
is pivotally attached to the shaft of the main roll 1, and at this time, the cutting blade 20 is arranged at a position that substantially points in the axial direction of the receiving roll 11. Reference numeral 23 denotes a crank body disposed at a suitable position on the aircraft, and the crank body 23 and the mounting arm 21 are connected to an operating rod 24 at a suitable position.
At the same time, the crank body 23 is driven by an electric motor 25 with a reduction gear via the chino 2G, and the rotation of the crank body 23 causes the mounting arm 21 to vibrate in the vertical direction around the base 22, thereby causing the cutting blade 20 to vibrate in the vertical direction. It is configured to move up and down on a lower belt conveyor 13 on a receiving roll 11.

(e) Reference numeral 27 denotes a noodle press/roll that has approximately the same length as the working width of the lower belt conveyor 13 and is disposed at right angles to the rotating direction of the conveyor X3.
is pivotally attached to the tip of an arm rod 29 which is pivoted at a proper position in the machine body and can freely vibrate in the vertical direction by a roll shaft 30. A small gear 31 is wedged to one end of the roll shaft 30.
It is configured to mesh with a large gear 32 wedged on the shaft of the conveyor belt 11, and is configured to rotate in a direction opposite to that of the lower heald conveyor 13 suspended from the receiving rolls 11 and the like. 33 is a spring interposed between the arm rod 29 and the fuselage,
The arm rod 29 is configured to be pulled downward. In addition, it is preferable that the small gear 31 and the large gear 32 have high teeth because when pressing the noodle press roller 27 or the collar plate on the lower belt conveyor 13, the gap between both gears increases.
In addition, the noodle pusher roll 27 is configured to press the surface of the lower belt conveyor 13, that is, the minimum distance between both gears is regulated so that the distance between the two gears does not become too narrow.

(F) The pedestal 3G, which is located below the lower belt conveyor 13 and runs on the rail 35 laid on the machine frame 34 in the longitudinal direction of the machine body, serves as a noodle receiving box stand. An actuating body 37 made of a bearing-like female screw body is engaged with the lower surface of the central part (rear side) of one end, and a drive rod 38 made of a rod-like male screw body whose one end is supported in a proper position on the machine frame 34 is attached to the actuating body 37. Screw in.

An activation body 39 projecting downward is provided on the lower surface near one end (rear side) of the gantry 36, and a micro switch 4 for forward command is provided at an appropriate position (on the rear side) at one end of the upper surface of the machine frame 34.
0, and a microswitch 41 for reversing command is provided at the other end (on the front side), and a sprocket 42 is wedged on one end of the drive rod 38, and a reversible motor 43 is wedged on the sprocket 42. Between sprocket 44 is die 4
5 is suspended, and when the reversible motor 43 is activated, the drive rod 38 is rotated, and when the pedestal 36 moves forward and the starter 39 engages the microswitch 41, the reversible motor 43 rotates in the opposite direction, causing the pedestal to rotate. 36 is moved backward, and when the actuator 39 engages the microswitch 40 after moving backward, the reversible motor 43 rotates forward again to move the pedestal 36 forward. At this time, if the switch of the reversible motor 43 is turned off when stopping the operation of the pedestal 36, the gantry 36 will be activated by the micro switch 4.
0, that is, the frame 36 is configured to stop at the retracted position. 46 is a noodle receiving box which is detachably placed on the stand 3G. Incidentally, the applicant has constructed a structure in which the operating body 37 and the drive rod 38 are composed of a female screw body and a male screw body which are threaded from both sides, and the pedestal 36 is reciprocated by rotation of the drive rod 38 in the same direction. is also being carried out. In addition, a mixer 47 is installed inside the R@ made in the example,
It is driven by the electric motor 15 so that the rotational speed can be changed freely. To explain the circuit diagram in FIG. 2, R1 is a relay for giving a low-speed twisting command to the mixer, and R-1 is a relay for giving a high-speed twisting command. . TR-1 is a timer with Neri action,
TR-2 is a timer for stirring, and TR-3 is a timer for buzzer. MC-1 is a magnetic switch for electric motors when it is not activated. BZ is the buzzer that signals the end of Neri, IV
IC-3 is a magnetic switch for the electric motor during rolling and cutting, and PB-1 is a button for starting rolling.
2 is a pushbutton for rolling stop, and R-3 is a relay for the above-mentioned operation. PB-3 is a button for starting cutting, PBi is a button for stopping cutting, and R-4 is a relay for the above operation. IVI (, -2 is a magnetic switch for the electric motor when the cutting device is driven, LS-3 is a limit switch for the cutting stop position. LS-1 is a limit switch that indicates the stop position of the pedestal and does not indicate the backward end.)
S-2 is a limit switch indicating the forward end, and R-5 is a frame stop position memory relay. MR, -1 indicates a radiot relay. RKA is a reversible motor that drives the frame, CP is a starting capacitor, and FAN is a fan for cooling the main motor.

Next, the operation will be explained in terms of rolling and shearing. The electric motor 15 is activated and the rolling conveyor heald 5 is rotated at the rolling speed. When the noodle mass that has been treaded and kneaded is placed on the supply roll 2'' of the rolling conveyor belt 5, the noodle mass is fed between the main roll 1 and the press roll 6 as the rolling belt conveyor 5 rotates, and is rolled. Ru. The rolled sub-plate is further transported on the rolling heel conveyor 5, and the operator takes it out and supplies it again from the supply roll 2 side in a different direction. The interval between the roll 1 and the press roll 6 is regulated to a predetermined interval, and the rotation of the electric motor 15 is reduced by a power control system using S, C, and R, and the rotation of the rolling heald conveyor 5 and the lower belt conveyor 13 is controlled to the cutting speed. The speed is changed to the corresponding speed, and the electric motor 25 is started to operate the cutting blade 20, and the recessible motor 43 is also started to operate the pedestal 36 on which the noodle receiving box 44 is placed.
6 to reciprocate in the front and back direction. Then, if the sub-plate is fed to the rolling belt conveyor 5 again in a different direction, the sub-plate, which has reached a predetermined thickness due to the pressing action of the main roll 1 and the press roll 6, will be turned over from the end of the rolling belt conveyor 5. The cutting blade 2 is transferred to the lower belt conveyor 13 in an expanded state, and while being transferred, the distortion of the sub-plate caused during rolling is naturally removed, and then it reaches the end of rotation, where the cutting blade 2 moves up and down.
It is cut to an appropriate width at 0. The cut noodle strings fall one after another into a noodle receiving box 44 that reciprocates downward from the end as the lower belt conveyor 13 rotates.

When the secondary plate transferred on the lower belt conveyor 13 reaches the terminal end, it is pressed by the noodle press roll 27 to prevent the secondary plate supplied to the cutting blade 20 from floating up on the conveyor 13. .

As described above, in the present invention, the supply roll 2 is arranged on one side of the main roll 1, the driving roll 3 is arranged on the other side, and the main roll l is arranged between the two rolls 2 and 3. is located inside to suspend the rolling helt conveyor 5, a pressing force adjusting device 7 is provided at the upper position of the main roll l, and a pressing roll 6 having a locking device is disposed, and the driving A mounting arm 21 is mounted on the substantially end portion of the rotation of the lower heald conveyor 13 suspended between a lower driving roll 10 disposed below the roll 3 and a receiving roll 11 mounted substantially diagonally below the supply roll 2. A cutting blade 20 with a base 22 pivoted at a suitable position on the machine body is provided, and the cutting blade 20 can be oscillated in the vertical direction via an operating rod 24 connected to a mounting arm 21a by a crank 23 disposed at a suitable position on the machine body. The noodle making machine has a noodle making machine structure in which a noodle press roller 27 is arranged at the rear of the cutting blade 20 and can be moved up and down, and further supplies the upper surface of the rolling helt conveyor 5. The upper surface of the lower heald conveyor 13 is configured so that it cannot rotate in opposite directions from the roll 2 side to the drive roll 3 side and from the lower drive roll 10 side to the receiving call 11 side, respectively, and both conveyors 5, 13 5
- Since the noodle making machine is structured to be driven by an electric motor 15 using a C-R power control system, the rotation speed of which can be changed freely, the rotation speed of the rolling device cannot be adjusted as in the conventional method, and the sub-board is stretched out. In the present invention, the cutting device is further cut by another cutting device, or even in a machine in which the cutting device is submerged, the material is fed to the cutting section by the operator's hand. As shown in the figure, the sub-plate rolled and expanded by the rolling belt conveyor 5 is transferred onto the lower belt conveyor 13, and is directly cut at the end of rotation of the conveyor 13, so that the operator's hands are not required during this process. There's nothing to do. Moreover, since the electric motor 15 that drives the conveyor is a 5-C-R electric motor with a power control type reduction gear, the speed can be easily adjusted to a speed suitable for cutting.

Further, the rolling heald conveyor 5 has a supply roll 2 and a drive roll 3 disposed in a shape that embraces the pressure roll G, and the conveyor 5 is suspended between the rolls, so that the noodle mass supplied from the supply roll 2 portion is The rotation of the conveyor 5 reliably transfers the plate toward the pressure roll 6 diagonally downward, and the rolled weight plate is transferred diagonally upward from the pressure roll 6 toward the drive roll 3, so that the operator can It has a structure that makes it easy to remove and re-supply. In addition, the pressure roll 6 is equipped with a locking device that regulates the distance between it and the main roll 1, so that the noodle thickness always remains constant during the final rolling process, and the rolling belt Conveyor 5 and lower pel 1 to conveyor 13
Since the fan plate is transferred on the upper part, the distortion generated during rolling is naturally removed, and there is no concern that the fan plate may wave at the cut part.
The noodle presser roll 27 rotates in opposition to the noodle presser roll 27 and is constantly pulled downward by a spring, and the noodle presser roll 27 applies weak pressure, so that the fan plate is cut smoothly without any worries such as folding at the cutting blade 20. It is something that

[Brief explanation of drawings]

Figure 1 is a road side view of the embodiment of the present invention. FIG. 2 is an electrical circuit diagram of the same embodiment. 1... Main roll 2... Supply roll 3... Drive roll 5... Rolling belt conveyor 6... Press roll 7... Pressing force adjustment device 10... Lower drive roll 11... - Receiving roll 13... Lower heald conveyor 15... Electric motor 20... Cutting blade 21... Mounting arm 22... Mounting arm base 23... Crank body 24... Operating rod 27... Kentabe Onishi, Patent Applicant for Noodle Press Herol

Claims (1)

[Scope of Claims] <1) A rolling belt is manufactured by disposing a supply roll on one side of the main roll, disposing a drive roll on the other side, and positioning the main roll inside between the two rolls. The conveyor is suspended,
A press roll is provided above the main roll, which is equipped with a press force adjustment device and can be fixed at an appropriate position, and is placed approximately diagonally below the lower drive roll and supply roll, which are disposed below the drive roll. A cutting blade with the bases of the four arms of the handle pivoted at appropriate positions on the machine is installed on the approximate end of the rotation of the lower heald conveyor suspended between receiving rolls mounted on a shaft. It is constructed so that it can be oscillated in the vertical direction by a crank disposed on the holder, via an operating rod connected to the mounting arm, and a noodle push roller that can be moved up and down is arranged at the rear of the cutting blade. The structure of the noodle making machine. (2) The rolling heald conveyor is configured to rotate in opposite directions from the coal side to the drive roll side and the lower belt conveyor from the lower drive roll side to the receiving roll side, and both heald conveyors The structure of a noodle making machine according to claim 1, wherein the noodle making machine is driven by a power control type electric motor according to 5-C-R in a manner that the rotational speed can be freely changed.