CN110973188A - Food processing sliced noodle machine and use method thereof - Google Patents

Abstract

The invention discloses a food processing sliced noodle machine and a using method thereof, wherein the food processing sliced noodle machine comprises a bottom plate and is characterized in that: the bottom plate fixed connection backup pad, a set of evenly distributed's round bar three of backup pad fixed connection, the one end of a set of evenly distributed's of backup pad fixed connection spring, every the other end of spring is fixed connection square plate respectively, every the spring ring cover corresponds respectively round bar three, every the round bar passes respectively the square plate, square plate fixed connection riser, riser fixed connection bevel mechanism. The invention relates to the field of food processing, in particular to a sliced noodle machine for food processing and a using method thereof. The invention is convenient for processing the sliced noodles.

Description

Food processing sliced noodle machine and use method thereof

Technical Field

The invention relates to the field of food processing, in particular to a sliced noodle machine for food processing and a using method thereof.

Background

The sliced noodles are local characteristic traditional wheaten food in the same city as Shanxi, are one of ten Chinese noodles and are popular in the north.

At present, the sliced noodles processed and produced in the food service industry are long oval noodles which are manually kneaded and are cut into noodles with uniform size by a hand-held knife, the manual processing wastes time and labor, and the efficiency is low. An automatic sliced noodle machine with low cost is needed to liberate manpower and improve efficiency. This is so. The defects of the prior art.

Disclosure of Invention

The invention aims to provide a sliced noodle machine for food processing and a use method thereof, which are convenient for sliced noodle processing.

The invention adopts the following technical scheme to realize the purpose of the invention:

a food processing sliced noodle machine and a using method thereof comprise a bottom plate, and are characterized in that: the bottom plate fixed connection backup pad, a set of evenly distributed's round bar three of backup pad fixed connection, the one end of a set of evenly distributed's of backup pad fixed connection spring, every the other end of spring is fixed connection square plate respectively, every the spring ring cover corresponds respectively round bar three, every the round bar passes respectively the square plate, square plate fixed connection riser, riser fixed connection bevel mechanism.

As a further limitation of the technical scheme, the dough slicing mechanism comprises a motor, the motor is fixedly connected with the vertical plate through a motor support, an output shaft of the motor is fixedly connected with the center of one side of the rotating wheel, the center of the other side of the rotating wheel is fixedly connected with one end of a connecting rod II, and the other end of the connecting rod II is fixedly connected with the round rod I.

As the further limitation of the technical scheme, the vertical plate is fixedly connected with the round rod II, the round rod II is hinged with the connecting rod I, the connecting rod I is provided with a sliding groove, and the round rod I is arranged in the sliding groove.

As a further limitation of the technical scheme, the first connecting rod is fixedly connected with the balancing weight, the first connecting rod is fixedly connected with the bidirectional arc cutter, and the bidirectional arc cutter is fixedly connected with the baffle.

As a further limitation of the technical solution, the vertical plate is fixedly connected with one pulley plate, the supporting plate is fixedly connected with another pulley plate, and each pulley plate is hinged with a group of pulleys which are uniformly distributed.

As a further limitation of the technical solution, the rotating wheel is fixedly connected to one end of a steel cable, the other end of the steel cable is fixedly connected to one of the pulleys, and the steel cable surrounds the corresponding pulley.

As a further limitation of this solution, the bottom plate is provided with symmetrical grooves.

As a further limitation of the technical scheme, the panel is connected with the bottom plate through two groups of symmetrical jackscrew threads.

The use method of the food processing sliced noodle machine is characterized by comprising the following steps:

the method comprises the following steps: selecting a proper number of pulleys according to the thickness of the sliced surface, so that one end of the steel cable is fixedly connected with the rotating wheel, the other end of the steel cable is fixedly connected with the pulley at one end of the lower side, the steel cable is made to surround the selected pulleys, and the selected pulleys are distributed intermittently, so that the steel cable is in contact with the pulley at the other end of the upper side;

step two: selecting the panel with proper thickness according to the thickness of the dough, and screwing the panel to the bottom plate by using the jackscrew;

step three: the motor is turned on, the motor drives the rotating wheel to rotate, the rotating wheel drives the connecting rod II to rotate, the connecting rod II drives the round rod I to rotate and move along the sliding groove, the round rod I drives the connecting rod I to swing in a reciprocating mode, and the connecting rod I drives the balancing weight, the bidirectional arc cutter and the baffle to swing in a reciprocating mode;

step four: the rotating wheel drives the steel cable to wind the rotating wheel, the steel cable drives the corresponding pulley to rotate and simultaneously drives the pulley corresponding to the upper side to move downwards, the pulley on the upper side drives the pulley plate on the upper side to move downwards, the pulley plate on the upper side drives the vertical plate to move downwards, the vertical plate drives the round rod II, the square plate, the motor bracket and the motor to move downwards, the motor drives the rotating wheel, the connecting rod II and the round rod I to move downwards, the round rod II drives the connecting rod I, the balancing weight, the bidirectional arc cutter and the baffle plate to move downwards, and the square plate moves downwards along the round rod three directions to compress the spring;

step five: the bidirectional arc cutter moves downwards and swings to cut the dough into the sliced noodles at the same time, and the baffle plate drives the cut noodles to move to one side of the groove.

Step six: when the dough is cut, the motor is turned off, the steel cable is released, the spring is restored, and the device is restored to the initial position.

Compared with the prior art, the invention has the advantages and positive effects that:

1. the device realizes the adjustment of the thickness of the sliced noodles by adjusting the number of the steel cable surrounding the pulley, realizes uniform sliced noodles, simultaneously realizes the slicing and the downward movement by the rotation of the same motor, and realizes the automatic processing of the sliced noodles.

2. The device is provided with the spring, and after the processing is finished, the steel cable is untied, so that the automatic resetting of the system is realized, and the operation is convenient.

3. This device is provided with the balancing weight, and the quality of cutting knife facing is guaranteed to the inertia of increase system.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a partial perspective view of the first embodiment of the present invention.

Fig. 4 is a schematic perspective view of the present invention.

Fig. 5 is a partial perspective view of the second embodiment of the present invention.

In the figure: 1. the cutting device comprises a first connecting rod, a second connecting rod, a sliding groove, a third connecting rod, a fourth connecting rod, a fifth connecting rod, a sixth.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

As shown in fig. 1 to 5, the present invention includes a bottom plate 1, asupport plate 14 is fixedly connected to thebottom plate 7, thesupport plate 14 is fixedly connected to a set of evenly distributed round rods three 19, thesupport plate 14 is fixedly connected to one end of a set of evenly distributedsprings 17, the other end of eachspring 17 is respectively fixedly connected to asquare plate 18, eachspring 17 is respectively sleeved on the corresponding round rod three 19, eachround rod 19 respectively penetrates through thesquare plate 18, thesquare plate 18 is fixedly connected to avertical plate 20, and thevertical plate 20 is fixedly connected to a dough cutting mechanism.

The dough slicing mechanism comprises amotor 3, themotor 3 is fixedly connected with avertical plate 20 through amotor support 21, an output shaft of the motor 2 is fixedly connected with the center of one side of a rotating wheel 4, the center of the other side of the rotating wheel 4 is fixedly connected with one end of a second connecting rod 9, and the other end of the second connecting rod 9 is fixedly connected with afirst round rod 10.

Theriser 20 fixed connection round bar two 11, round bar two 11 articulated connecting rod one 1, connecting rod one 1 is provided with spout 2, round bar one 10 sets up in the spout 2.

The first connecting rod 1 is fixedly connected with the balancingweight 5, the first connecting rod 1 is fixedly connected with thebidirectional arc cutter 23, and thebidirectional arc cutter 23 is fixedly connected with thebaffle 22.

Thevertical plate 20 is fixedly connected with onepulley plate 15, the supportingplate 14 is fixedly connected with theother pulley plate 15, and eachpulley plate 15 is hinged with a group ofpulleys 16 which are uniformly distributed.

The rotating wheel 4 is fixedly connected with one end of asteel cable 8, the other end of thesteel cable 8 is fixedly connected with onepulley 16, and thesteel cable 8 surrounds thecorresponding pulley 16.

Thebottom plate 7 is provided with symmetrical grooves 6.

Theface plate 12 is connected with thebottom plate 7 through two groups of symmetricaltop threads 13.

A use method of a food processing sliced noodle machine comprises the following steps:

the method comprises the following steps: selecting a proper number ofpulleys 16 according to the thickness of the cutting surface, so that one end of thesteel cable 8 is fixedly connected with the rotating wheel 4, the other end of thesteel cable 8 is fixedly connected with thepulley 16 at one end of the lower side, thesteel cable 8 surrounds theselected pulley 16, and theselected pulleys 16 are intermittently distributed, so that thesteel cable 8 contacts thepulley 16 at the other end of the upper side;

step two: selecting theface plate 12 with proper thickness according to the thickness of dough, and screwing the face plate onto thebottom plate 7 by using thejackscrew 13;

step three: themotor 3 is turned on, themotor 3 drives the rotating wheel 4 to rotate, the rotating wheel 4 drives the connecting rod II 9 to rotate, the connecting rod II 9 drives the round rod I10 to rotate and move along the sliding groove 2, the round rod I10 drives the connecting rod I1 to swing in a reciprocating mode, and the connecting rod I1 drives the balancingweight 5, thebidirectional arc cutter 23 and thebaffle 22 to swing in a reciprocating mode;

step four: the rotating wheel 4 drives thesteel cable 8 to wind on the rotating wheel 4, thesteel cable 8 drives thecorresponding pulley 16 to rotate and simultaneously drives thepulley 16 corresponding to the upper side to move downwards, thepulley 16 on the upper side drives thepulley plate 15 on the upper side to move downwards, thepulley plate 15 on the upper side drives thevertical plate 20 to move downwards, thevertical plate 20 drives the round rod II 11, thesquare plate 18, themotor support 21 and themotor 3 to move downwards, themotor 3 drives the rotating wheel 4, the connecting rod II 9 and the round rod I10 to move downwards, the round rod II 11 drives the connecting rod I1, the balancingweight 5, thebidirectional arc cutter 23 and thebaffle 22 to move downwards, and thesquare plate 18 moves downwards along the round rod III 19 to compress thespring 17;

step five: thebidirectional arc cutter 23 moves downwards and swings to cut the dough into the cut noodles, and thebaffle 22 drives the cut noodles to move into the groove 6 on one side.

Step six: when the dough is cut, themotor 3 is turned off, thewire 8 is unwound, thespring 17 is restored, and the device is restored to the original position.

The working process of the invention is as follows: according to the thickness of the cutting surface, an appropriate number ofpulleys 16 are selected, as shown in fig. 2, the thickness of the cutting surface is one fourth of the circumference of the rotating wheel, one end of thesteel cable 8 is connected with the rotating wheel 4, the other end of the steel cable is fixedly connected with theleft-most pulley 16 at the lower side, thesteel cable 8 surrounds fourpulleys 16 at the upper side and the lower side, and the fourpulleys 16 at the upper side and the lower side are distributed intermittently, so that the steel cable contacts theright-most pulley 16 at the. Depending on the thickness of the dough, apanel 12 of suitable thickness is selected and screwed to thebase plate 7 using atop thread 13.

The method for connecting thesteel cable 8 to the wheel 4 or thepulley 16 can be the existing snap, tie, jackscrew or bolt, etc., which is not shown in detail here for the prior art.

Themotor 3 is turned on, themotor 3 drives the rotating wheel 4 to rotate, the rotating wheel 4 drives the connecting rod II 9 to rotate, the connecting rod II 9 drives the round rod I10 to rotate and move along the sliding groove 2, the round rod I10 drives the connecting rod I1 to swing in a reciprocating mode, and the connecting rod I1 drives the balancingweight 5, thebidirectional arc cutter 23 and thebaffle 22 to swing in a reciprocating mode.

The runner 4 drives thecable wire 8 to wind on the runner 4, thecable wire 8 drives thecorresponding pulley 16 to rotate and drives thecorresponding pulley 16 of upside to move downwards simultaneously, thepulley 16 of upside drives thepulley board 15 of upside to move downwards, thepulley board 15 of upside drives theriser 20 to move downwards, theriser 20 drives the round bar two 11, thesquare plate 18, themotor support 21 and themotor 3 move downwards, themotor 3 drives the runner 4, the connecting rod two 9 and the round bar one 10 move downwards, the round bar two 11 drives the connecting rod one 1, the balancingweight 5, the two-waycircular arc cutter 23 and thebaffle 22 move downwards, thesquare plate 18 moves thecompression spring 17 downwards along the round bar three 19.

Thebidirectional arc cutter 23 moves downwards and swings to cut the dough into the sliced noodles, and thebaffle 22 drives the cut noodles to move into the groove 6 on one side.

The upper mechanism moves downwards integrally while cutting out the cutting dough sheet, a proper movement amount is adjusted, the cutting dough sheet moves for a certain distance, the automatic downward movement of the bidirectional arc cutter is realized, and the downward movement distance of each time is determined by selecting the number of pulleys through which the steel cable passes.

When the dough is cut, themotor 3 is turned off, thewire rope 8 is unwound, thespring 17 is restored, and the device is restored to the initial position.

The above disclosure is only for the specific embodiment of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art should fall within the scope of the present invention.

Claims (9)

1. The utility model provides a food processing sliced noodle machine, includes bottom plate (7), its characterized in that:

the bottom plate (7) is fixedly connected with a support plate (14);

the supporting plate (14) is fixedly connected with a group of uniformly distributed round rods III (19);

the supporting plate (14) is fixedly connected with one end of a group of uniformly distributed springs (17);

the other end of each spring (17) is fixedly connected with a square plate (18) respectively;

each spring (17) is sleeved on the corresponding round rod III (19);

each round rod (19) penetrates through the square plate (18);

the square plate (18) is fixedly connected with a vertical plate (20);

the vertical plate (20) is fixedly connected with the dough slicing mechanism.

2. The food processing sliced noodle machine of claim 1, wherein: the dough slicing mechanism comprises a motor (3), the motor (3) is fixedly connected with a vertical plate (20) through a motor support (21), the output shaft of the motor (2) is fixedly connected with the center of one side of a rotating wheel (4), the center of the other side of the rotating wheel (4) is fixedly connected with one end of a connecting rod II (9), and the other end of the connecting rod II (9) is fixedly connected with a round rod I (10).

3. The food processing sliced noodle machine of claim 2, wherein: riser (20) fixed connection round bar two (11), round bar two (11) articulated connecting rod one (1), connecting rod one (1) is provided with spout (2), round bar one (10) set up in spout (2).

4. The food processing sliced noodle machine of claim 3, wherein: the connecting rod I (1) is fixedly connected with the balancing weight (5), the connecting rod I (1) is fixedly connected with the bidirectional arc cutter (23), and the bidirectional arc cutter (23) is fixedly connected with the baffle (22).

5. The food processing sliced noodle machine of claim 2, wherein: the vertical plate (20) is fixedly connected with one pulley plate (15), the supporting plate (14) is fixedly connected with the other pulley plate (15), and each pulley plate (15) is respectively hinged with a group of pulleys (16) which are uniformly distributed.

6. The food processing sliced noodle machine of claim 5, wherein: the rotating wheel (4) is fixedly connected with one end of a steel cable (8), the other end of the steel cable (8) is fixedly connected with one pulley (16), and the steel cable (8) surrounds the corresponding pulley (16).

7. The food processing sliced noodle machine of claim 1, wherein: the bottom plate (7) is provided with symmetrical grooves (6).

8. The food processing sliced noodle machine of claim 1, wherein: the panel (12) is in threaded connection with the bottom plate (7) through two groups of symmetrical jackscrews (13).

9. The use method of the food processing sliced noodle machine is characterized by comprising the following steps:

the method comprises the following steps: selecting a proper number of pulleys (16) according to the thickness of the cutting surface, enabling one end of the steel cable (8) to be fixedly connected with the rotating wheel (4), enabling the other end of the steel cable (8) to be fixedly connected with the pulley (16) at one end of the lower side, enabling the steel cable (8) to surround the selected pulley (16), and enabling the selected pulley (16) to be distributed intermittently, so that the steel cable (8) is in contact with the pulley (16) at the other end of the upper side;

step two: selecting the face plate (12) with a proper thickness according to the thickness of the dough, and screwing the face plate (12) to the bottom plate (7) by using the jackscrew (13);

step three: the motor (3) is turned on, the motor (3) drives the rotating wheel (4) to rotate, the rotating wheel (4) drives the connecting rod II (9) to rotate, the connecting rod II (9) drives the round rod I (10) to rotate and move along the sliding chute (2), the round rod I (10) drives the connecting rod I (1) to swing in a reciprocating mode, and the connecting rod I (1) drives the balancing weight (5), the bidirectional arc cutter (23) and the baffle (22) to swing in a reciprocating mode;

step four: the rotating wheel (4) drives the steel cable (8) to be wound on the rotating wheel (4), the steel cable (8) drives the pulley (16) to rotate correspondingly and simultaneously drives the pulley (16) with the corresponding upper side to move downwards, the pulley (16) with the upper side drives the pulley plate (15) with the upper side to move downwards, the pulley plate (15) with the upper side drives the vertical plate (20) to move downwards, the vertical plate (20) drives the round rod II (11), the square plate (18), the motor support (21) and the motor (3) to move downwards, the motor (3) drives the rotating wheel (4), the connecting rod II (9) and the round rod I (10) to move downwards, the round rod II (11) drives the connecting rod I (1), the balancing weight (5), the bidirectional arc cutter (23) and the baffle (22) to move downwards, the square plate (18) moves downwards along the round rod III (19) to compress the spring (17);

step five: the bidirectional arc cutter (23) moves downwards and swings to cut the dough into the cut noodles, and the baffle (22) drives the cut noodles to move into the groove (6) on one side.

Step six: when the dough is cut, the motor (3) is turned off, the steel cable (8) is unwound, the spring (17) is restored, and the device is restored to the initial position.

Images