CN220674988U - Deep-fried dough stick skin pressing machine - Google Patents

Abstract

The utility model relates to the technical field of catering equipment, and provides a deep-fried dough sticks skin pressing machine which comprises a conveying plate, a conveying assembly, a supporting assembly, an extruding device, an input supporting frame, an input assembly, a conveying belt and fastening bolts, wherein the conveying plate is arranged on the conveying belt of the conveying assembly, the two supporting assemblies are respectively arranged on the left side and the right side of the lower part of the conveying assembly, and the extruding device is welded at the upper middle part of the conveying assembly; the input support frame is positioned on the upper right side of the conveying assembly and is connected with the conveying assembly through fastening bolts respectively; the conveying belt is respectively positioned on the conveying assembly, the extrusion device and the input assembly; the extrusion column, the extrusion rotating shaft, the extrusion rotating wheel, the extrusion conveying ring and the force transmission rotating wheel are arranged, so that the standardized treatment of dough is realized, and the thickness of the extruded dough is balanced; the conveying assembly, the supporting assembly, the extrusion device, the input assembly and the conveyor belt are arranged, so that the labor intensity of users can be reduced.

Description

Deep-fried dough stick skin pressing machine

Technical Field

The utility model relates to the technical field of catering equipment, in particular to a deep-fried dough stick skin pressing machine.

Background

The deep-fried dough sticks, chinese also called cracker, fried ghost, steamed bread, semicoke cracker, fried Qinjun, etc. are old wheaten food, long hollow fried food, crisp and tough in taste and one of the traditional breakfast in China; in the traditional manufacturing process, fresh yeast or old dough (yeast dough) is firstly used for kneading with flour, after the dough is fermented to a certain degree, a proper amount of sodium carbonate and salt are added for kneading, then the dough is cut into strips with the width of 2 cm and the length of about 16 cm, every two strips are stacked up and down, the strips are pressed in the middle by a narrow wood strip, and the strips are stretched into a hot oil pot for frying after rotating, so that the strips are expanded into a crisp, yellow and fragrant deep-fried dough stick. In the process, a chef needs to manually knead the dough, the dough is rolled by a rolling pin after the kneading is finished, then the dough is cut into strips by a cutter, and the strips are put into a pot for frying; the process is very labor-intensive for chefs and is not uniform for the thickness of rolled dough; based on the above, it is necessary to provide a deep-fried dough stick sheeter which can save the physical effort of chefs and roll out the deep-fried dough sticks of uniform thickness.

Disclosure of Invention

The utility model provides a deep-fried dough stick skin pressing machine, which solves the problems that the physical strength of chefs cannot be saved and the dough thickness is not uniform in the related art.

The technical scheme of the utility model is as follows:

the deep-fried dough stick skin pressing machine is characterized by comprising a conveying plate, a conveying assembly, a supporting assembly, an extrusion device, an input supporting frame, an input assembly, a conveyor belt and fastening bolts, wherein the conveying plate is positioned on the conveyor belt of the conveying assembly, and the two supporting assemblies are respectively positioned on the left side and the right side of the lower part of the conveying assembly and are in threaded connection with the conveying assembly through the fastening bolts; the extruding device is welded at the upper middle part of the conveying assembly; the input support frame is positioned at the right upper side of the conveying assembly and is connected with the conveying assembly through fastening bolts respectively; the input assembly inclined plane set up in the upper position of input support frame, the conveyer belt be located conveying assembly, extrusion device, input assembly respectively.

Preferably, the conveying assembly comprises three rotating shafts, a single rotating wheel, movable nuts, a supporting plate, a booster motor, a large composite rotating wheel, a discharging conveying ring, suspension bolts and a small composite rotating wheel, wherein two ends of the three rotating shafts penetrate through two sides of the conveying assembly and are fixed by the movable nuts, and one rotating shaft is arranged on the left side of the conveying assembly; the right side is provided with a root, and the middle is provided with a single rotating wheel; in addition, a rotary shaft is independently arranged at a position close to the rotary shaft on the right side, and a large composite rotary wheel and a small composite rotary wheel are arranged on the rotary shaft; the supporting plate is welded at the middle left position of the conveying assembly; the power-assisted motor is connected with the supporting plate through two suspension bolts, the power-assisted motor is externally connected with a single rotating wheel, the single rotating wheel is connected with a small composite rotating wheel through a discharge conveying ring, and the small composite rotating wheel is connected with the single rotating wheel of the right rotary shaft through the discharge conveying ring.

Preferably, the support assembly comprises a support surface, a support nut, support screws and support columns, wherein four corners of the support surface are provided with four support screws, and the four support screws penetrate through the support columns and are fixed through the support nuts.

Preferably, the extruding device comprises two extruding columns, extruding rotating shafts, extruding rotating wheels, extruding conveying rings, force transmission rotating wheels, signal processors, signal wires, cutting pieces and protective covers, wherein the extruding columns are respectively arranged alternately up and down, the extruding rotating shafts are arranged in the middle of each extruding column, the extruding rotating wheels are arranged at two ends of each extruding rotating shaft, and the extruding rotating wheels at the same side are connected through the extruding conveying rings; the two protecting covers are arranged, the signal processor is positioned in the right protecting cover, and the lower part of the signal processor is connected with a signal wire; the lower side of the extrusion column is provided with two cutting pieces which are welded on the extrusion device.

The protective cover comprises a switch, a device nameplate and an emergency power-off switch, and the switch is positioned on the device nameplate; the emergency power-off switch is positioned on the right side of the nameplate of the device; the switch and the emergency power-off switch are arranged corresponding to the signal processor behind the protective cover.

Preferably, the input assembly comprises an input rotating shaft, an input movable nut, an input force transmission rotating wheel, an input rotating wheel and an input support column, wherein the number of the input rotating shafts is two, each input rotating shaft is provided with two input rotating wheels, and the input rotating wheels penetrate through the input support column and are fixed by the input movable nut; the input force transmission rotating wheel is positioned on the right input rotating shaft.

Preferably, the motors are all Y160M1-2 type motors.

Preferably, the conveying plate and the conveyor belt are made of HDPE food-grade plastic materials.

Preferably, the large composite rotating wheel is connected with the force transmission rotating wheel and the input force transmission rotating wheel through extrusion conveying rings respectively.

Preferably, the distance between the two extrusion columns is 3mm.

The working principle and the beneficial effects of the utility model are as follows:

1. in the utility model, when the device is electrified, a user places dough on the conveyor belt of the input assembly, after the switch is turned on, the booster motor starts to work to drive the small compound rotating wheel and the large compound rotating wheel to start rotating, the small compound rotating wheel drives the conveyor belt of the conveying assembly to start transferring, meanwhile, the large compound rotating wheel drives the extrusion column of the extrusion device and the conveyor belt of the input assembly to start rotating, the dough falls into the conveying plate on the conveying assembly after passing through the extrusion device by the input assembly, and the dough is cut off by the cutting sheet after extrusion is completed.

2. In the utility model, the arrangement of the extrusion column, the extrusion rotating shaft, the extrusion rotating wheel, the extrusion conveying ring and the force transmission rotating wheel is beneficial to realizing the standardized treatment of dough and balancing the thickness of the extruded dough.

3. In the utility model, the arrangement of the conveying component, the supporting component, the extruding device, the input component and the conveyor belt is beneficial to reducing the labor intensity of users.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a conveying assembly according to the present utility model;

FIG. 3 is a schematic view of a support assembly according to the present utility model;

FIG. 4 is a schematic view of the structure of the extrusion device of the present utility model;

FIG. 5 is a schematic view of a protective cover according to the present utility model;

FIG. 6 is a schematic diagram of an input assembly according to the present utility model;

in the figure:

1. a conveying plate; 2. a transport assembly; 3. a support assembly; 4. an extrusion device; 5. inputting a supporting frame; 6. an input assembly; 7. a conveyor belt; 8. a fastening bolt; 21. a rotation shaft; 22. a single wheel; 23. a movable nut; 24. a support plate; 25. a booster motor; 26. a large composite runner; 27. a discharging conveying ring; 28. a suspension bolt; 29. a small composite runner; 31. a support surface; 32. a support nut; 33. a support screw; 34. a support column; 41. an extrusion column; 42. extruding the rotating shaft; 43. extruding a rotating wheel; 44. extruding the conveying ring; 45. a force transmission rotating wheel; 46. a signal processor; 47. a signal wire; 48. cutting the sheet; 49. a protective cover; 491. a switch; 492. a device nameplate; 493. an emergency power-off switch; 61. an input rotating shaft; 62. inputting a movable nut; 63. inputting a force transmission rotating wheel; 64. an input wheel; 65. and inputting the support column.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-2, the embodiment provides an automatic fried bread stick dough kneading machine, which is characterized by comprising a conveying plate 1, a conveying assembly 2, a supporting assembly 3, an extruding device 4, an input supporting frame 5, an input assembly 6, a conveying belt 7 and fastening bolts 8, wherein the conveying plate 1 is positioned on the conveying belt 7 of the conveying assembly 2, and the two supporting assemblies 3 are respectively positioned on the left side and the right side of the lower part of the conveying assembly 2 and are in threaded connection with the conveying assembly 2 through the fastening bolts 8; the extruding device 4 is welded at the middle upper position of the conveying assembly 2; the input support frame 5 is positioned at the right upper side of the conveying assembly 2 and is respectively connected with the conveying assembly 2 and the input assembly 6 through fastening bolts 8; the inclined plane of the input assembly 6 is arranged at the upper part of the input support frame 5, and the conveyor belt 7 is respectively arranged on the conveying assembly 2, the extrusion device 4 and the input assembly 6; the conveying assembly 2 comprises three rotating shafts 21, a single rotating wheel 22, movable nuts 23, a supporting plate 24, a booster motor 25, a large composite rotating wheel 26, a discharge conveying ring 27, suspension bolts 28 and small composite rotating wheels 29, wherein two ends of the three rotating shafts 21 penetrate through two sides of the conveying assembly 2 and are fixed by the movable nuts 23, and one rotating shaft is arranged on the left side of the conveying assembly 2; a single rotating wheel 22 is arranged at the middle of the right side; in addition, a rotating shaft 21 is separately arranged at a position close to the right rotating shaft 21, and a large composite rotating wheel 26 and a small composite rotating wheel 29 are arranged on the rotating shaft 21; the supporting plate 24 is welded at the middle left position of the conveying assembly 2; the power-assisted motor 25 is connected with the supporting plate 24 through two suspension bolts 28, the power-assisted motor 25 is externally connected with a single rotating wheel 22, the single rotating wheel 22 is connected with a small compound rotating wheel 29 through a discharge conveying ring 27, and the small compound rotating wheel 29 is connected with the single rotating wheel 22 of the right rotating shaft 21 through the discharge conveying ring 27.

In this embodiment, the conveyor belt 7 is made of HDPE food grade plastic material.

Example 2

As shown in fig. 3 to 5, based on the same concept as that of the above embodiment 1, the present embodiment further proposes that the supporting assembly 3 includes a supporting surface 31, a supporting nut 32, supporting screws 33 and supporting columns 34, four supporting screws 33 are respectively disposed at four corners of the supporting surface 31, and the four supporting screws 33 pass through the supporting columns 34 and are fixed by the supporting nuts 32; the extrusion device 4 comprises extrusion columns 41, extrusion rotating shafts 42, extrusion rotating wheels 43, extrusion conveying rings 44, force transmission rotating wheels 45, signal processors 46, signal wires 47, cutting pieces 48 and protective covers 49, wherein two extrusion columns 41 are respectively arranged alternately up and down, the extrusion rotating shafts 42 are arranged in the middle of the extrusion columns 41, the extrusion rotating wheels 43 are arranged at two ends of each extrusion rotating shaft 42, and the extrusion rotating wheels 43 at the same side are connected through the extrusion conveying rings 44; the two protecting covers 49 are arranged, the signal processor 46 is positioned in the right protecting cover 49, and the lower part of the signal processor 46 is connected with a signal wire 47; two cutting pieces 48 are arranged on the lower side of the extrusion column 41, and the cutting pieces 48 are welded on the extrusion device 4; the protective cover 49 comprises a switch 491, a device nameplate 492 and an emergency power-off switch 493, wherein the switch 491 is positioned on the device nameplate 492; the emergency power-off switch 493 is positioned on the right side of the device nameplate 492; the switch 491 and the emergency power-off switch 493 are both positioned corresponding to the signal processor 46 behind the protective cover 49.

Example 3

As shown in fig. 6, based on the same concept as that of the above embodiment 1, the present embodiment also proposes that the input assembly 6 includes an input rotating shaft 61, an input movable nut 62, an input force transmission rotating wheel 63, an input rotating wheel 64 and an input supporting column 65, wherein the input rotating shaft 61 has two input rotating wheels 64, and is fixed by the input movable nut 62 through the input supporting column 65; the input force transmission rotating wheel 63 is positioned on the right input rotating shaft 61.

In the embodiment, the motors are all Y160M1-2 motors; the large composite runner 26 is connected with the force transmission runner 45 and the input force transmission runner 63 through the extrusion transmission ring 44 respectively.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The deep-fried dough stick skin pressing machine is characterized by comprising a conveying plate (1), a conveying assembly (2), a supporting assembly (3), an extruding device (4), an input support frame (5), an input assembly (6), a conveying belt (7) and fastening bolts (8), wherein the conveying plate (1) is positioned on the conveying belt (7) of the conveying assembly (2), and the two supporting assemblies (3) are respectively positioned on the left side and the right side of the lower part of the conveying assembly (2) and are in threaded connection with the conveying assembly (2) through the fastening bolts (8); the extrusion device (4) is welded at the upper middle part of the conveying assembly (2); the input support frame (5) is positioned at the right upper side of the conveying assembly (2) and is connected with the conveying assembly (2) and the input assembly (6) through fastening bolts (8) respectively; the inclined plane of the input assembly (6) is arranged at the upper position of the input support frame (5), the conveying belts (7) are respectively arranged on the conveying assembly (2), the extrusion device (4) and the input assembly (6).

2. The deep-fried dough stick skin pressing machine according to claim 1, wherein the conveying assembly (2) comprises three rotating shafts (21), a single rotating wheel (22), a movable nut (23), a supporting plate (24), a booster motor (25), a large composite rotating wheel (26), a discharging conveying ring (27), hanging bolts (28) and a small composite rotating wheel (29), the three rotating shafts (21) penetrate through two sides of the conveying assembly (2), two ends of the three rotating shafts (21) are fixed by the movable nut (23), and one rotating shaft is arranged on the left side of the conveying assembly (2); the right side is provided with a single rotating wheel (22) in the middle; in addition, a rotary shaft (21) is independently arranged at a position close to the right rotary shaft (21), and a large composite rotary wheel (26) and a small composite rotary wheel (29) are arranged on the rotary shaft (21); the supporting plate (24) is welded at the middle left position of the conveying assembly (2); the power-assisted motor (25) is connected with the supporting plate (24) through two suspension bolts (28), the power-assisted motor (25) is externally connected with the single rotating wheel (22), the single rotating wheel (22) is connected with the small composite rotating wheel (29) through the discharging conveying ring (27), and the small composite rotating wheel (29) is connected with the single rotating wheel (22) of the right rotating shaft (21) through the discharging conveying ring (27).

3. A deep-fried dough stick skin machine as claimed in claim 1, characterized in that the support assembly (3) comprises a support surface (31), a support nut (32), support screws (33) and support columns (34), four corners of the support surface (31) are respectively provided with four support screws (33), and the four support screws (33) penetrate the support columns (34) and are fixed by the support nuts (32).

4. The deep-fried dough stick skin pressing machine according to claim 1, wherein the extruding device (4) comprises extruding columns (41), extruding rotating shafts (42), extruding rotating wheels (43), extruding conveying rings (44), force transmission rotating wheels (45), signal processors (46), signal wires (47), cutting pieces (48) and protective covers (49), the extruding columns (41) are respectively arranged alternately up and down, the extruding rotating shafts (42) are arranged in the middle of the extruding columns (41), the extruding rotating wheels (43) are arranged at two ends of each extruding rotating shaft (42), and the extruding rotating wheels (43) at the same side are connected through the extruding conveying rings (44); the two protecting covers (49) are arranged, the signal processor (46) is positioned in the right protecting cover (49), and the lower part of the signal processor (46) is connected with a signal wire (47); two cutting pieces (48) are arranged on the lower side of the extrusion column (41), and the cutting pieces (48) are welded on the extrusion device (4);

the protective cover (49) comprises a switch (491), a device nameplate (492) and an emergency power-off switch (493), wherein the switch (491) is positioned on the device nameplate (492); the emergency power-off switch (493) is positioned on the right side of the device nameplate (492); the positions of the switch (491) and the emergency power-off switch (493) are respectively corresponding to the signal processor (46) behind the protective cover (49).

5. A deep-fried dough stick skin machine as claimed in claim 1, wherein said input assembly (6) comprises an input rotary shaft (61), an input movable nut (62), an input force transmission rotary wheel (63), an input rotary wheel (64) and an input support column (65), said input rotary shaft (61) being provided with two input rotary wheels (64) each, and being fixed by the input movable nut (62) through the input support column (65); the input force transmission rotating wheel (63) is positioned on the right input rotating shaft (61).

6. The deep-fried dough stick skin pressing machine according to claim 2, wherein the motors are all Y160M1-2 type motors.

7. A deep-fried dough stick sheeter according to claim 1, wherein the conveyor belt (7) is made of HDPE food grade plastic material.

8. A deep-fried dough stick skin machine as claimed in claim 2, characterized in that the large composite runner (26) is connected to the force-transmitting runner (45) and the input force-transmitting runner (63) by means of extrusion transfer rings (44), respectively.