CN112825883A

CN112825883A - Straight-tube type continuous reciprocating hele noodle making machine

Info

Publication number: CN112825883A
Application number: CN202110114734.2A
Authority: CN
Inventors: 王岩
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-16
Filing date: 2021-01-22
Publication date: 2021-05-25

Abstract

A straight cylinder type continuous reciprocating hele noodle making machine. The technical field is as follows: relates to a cooking and food machine for making hele noodles. The problems to be solved are that: the traditional buckwheat noodle maker can finish four steps only by one-time noodle pressing, and can not continuously extrude. The key points and the main purposes are as follows: the straight-tube continuous reciprocating hele noodle making machine is characterized in that a working tube assembly extruding chamber section working tube assembly noodle filling opening section and a working tube assembly push rod chamber section are designed on one working tube assembly, then two touch switches arranged at two ends in an operating element protection box are pressed by a push rod reciprocating collision block extending out of a long-neck push rod, the switches drive a relay, hydraulic reciprocating automatic reversing extrusion noodle pushing is achieved, an operator only needs to fill noodle, and the reciprocating operation of the working push rod achieves automation.

Description

Straight-tube type continuous reciprocating hele noodle making machine

Technical Field

The scheme relates to a kitchen cooking and food machine for making buckwheat noodles.

Background

The conventional hele noodle machine needs four steps as shown in fig. 1 to finish one-time noodle pressing, and cannot perform automatic continuous extrusion operation.

Disclosure of Invention

A straight-tube continuous reciprocating Hele noodle machine is characterized in that an extrusion chamber section noodle filling port section and a push rod chamber section are designed on a working tube, a piston push rod for pushing and extruding noodles is a long-neck piston push rod, a push rod head in front of the piston is arranged on the rear side of the noodle filling port, the length of the long-neck push rod is about the length of the noodle filling port section and the extrusion chamber section, the stroke length of the piston is also the length of the noodle filling port section and the extrusion chamber section, a touch handle is extended out of the long-neck push rod to the outer side of a working tube assembly from the long-neck push rod at the rear part of the long-neck push rod and is used for touching a switch, the push rod reciprocating bump is called as a push rod reciprocating bump, the push rod reciprocating bump is driven by a hydraulic cylinder piston to reciprocate outside a stroke window of the push rod reciprocating bump, the parts of the push rod bump against two touch switches arranged at two ends in an operating element protection box respectively, the touch switches send commands to an intermediate relay, thereby the piston push rod reciprocates in the working barrel and realizes the automatic work of finishing the extrusion and the return of the filling surface at one time.

Drawings

Fig. 1 is a diagram illustrating four steps of noodle pressing in a conventional hele noodle machine. 91 ready position, 92 pulled out, 93 noodle filling, 94 back, 95 pressing.

Figure 2 shows a filter grate pressing ring for the formation of wheaten food.

Figure 3 shows the filtering grate for the cooked wheaten food.

FIG. 4 is a three-view illustration of the barrel assembly.

Fig. 5 is a straight cylinder type continuously reciprocating hele noodle maker. 1 flour food forming filter grate pressing ring, 2 flour food forming filter grate, 3 working barrel assembly, 4 working barrel assembly extrusion chamber section, 5 working barrel assembly face filling port section, 6 working barrel assembly push rod chamber section, 7 face filling port inner cover, 8 face filling port outer cover (welded with the inner cover into a whole), 9 face filling port cover hinge, 10 face filling port cover handle, 11 face filling port cover handle reinforcing rib, 12 push rod head, 13 long neck push rod, 14 push rod reciprocating collision block, 15 push rod reciprocating collision block elastic ring, 16 push rod reciprocating collision block stroke window, 17 operating element protection box, 18 operating element protection box mounting platform, 19 operating element protection box mounting platform reinforcing rib, 20 touch switch, 21 touch switch, 22 working barrel assembly flange, 23 working barrel assembly and hydraulic cylinder fixing bracket, 24 hydraulic cylinder flange, 25 flange fixing bolt, 26 hydraulic cylinder, 27 working barrel assembly front bracket, 28 hydraulic and electric appliance control box, 29 wheels.

FIG. 6 is a schematic diagram of a reciprocating control loop of the two-position four-way electromagnetic directional valve. 26 hydraulic cylinders, 40 stop buttons, 41 start buttons, 42 two-position four-way electromagnetic directional valves, 43 two-position four-way electromagnetic directional valve directional coils, 44 two-position four-way electromagnetic directional valve directional coils, 45 touch switches 21 make and break contacts, 46 touch switches 20 make and break contacts, 47 intermediate relay coils, 48 intermediate relay make and break contacts, 49 touch switches 20 make and break contacts, 50 touch switches 21 make and break contacts, 51 intermediate relay coils and 52 intermediate relay make and break contacts.

FIG. 7 is a schematic diagram of a reciprocating control loop of the two-position four-way single electrically controlled solenoid directional valve. 26 hydraulic cylinders, 60 stop buttons, 61 start buttons, 62 two-position four-way single electric control electromagnetic reversing valves, 63 reversing valve reversing coils, 64 reversing valve reversing springs, 65 touch switch 21 on-off contacts, 66 touch switch 20 on-off contacts, 67 intermediate relay coils and 68 intermediate relay on-off contacts.

FIG. 8 is a schematic diagram of a reciprocating control loop of a two-position four-way hydraulic directional control valve. 26 hydraulic cylinders, 70 two-position four-way hydraulic directional control valves, 71 two-position two-way valves, 72 two-position two-way valve coils, 73 two-position two-way valve coils, 74 stop buttons, 75 start buttons, 76 touch switch 21 make contacts, 77 touch switch 20 make contacts, 78 intermediate relay coils, 79 intermediate relay make contacts, 80 touch switch 20 make contacts, 81 touch switch 21 make contacts, 82 intermediate relay coils, 83 intermediate relay make contacts.

Detailed Description

Fig. 6 shows the control principle of the reciprocating loop of the two-position four-way electromagnetic directional valve. After the control circuit is electrified, the starting button (41) is pressed, the intermediate relay coil (47) is attracted, the movable contact (48) is closed, the reversing coil (43) of the two-position four-way electromagnetic reversing valve is electrified to work, hydraulic oil extrudes the oil cylinder piston forwards through the A, and at the moment, the piston push rod is in a surface pressing state. When a push rod reciprocating collision block (14) on the long-neck push rod collides and presses a movable contact (49) of a touch switch (20) to be closed, a movable break contact (46) of the touch switch (20) is disconnected, an intermediate relay coil (51) is sucked, a movable contact (52) of the intermediate relay coil is closed at the same time, a reversing coil (44) of the two-position four-way electromagnetic reversing valve works, a piston push rod retracts after the pressure surface stroke is finished, when a movable contact (45) of the touch switch (21) is touched to be closed, the hydraulic oil cylinder pushes forwards again, a new reciprocating cycle starts, and therefore the cyclic reciprocating work of the push rod is achieved.

Fig. 7 shows the reciprocating loop principle of the two-position four-way single electrically controlled electromagnetic directional valve. After a control circuit is electrified, a starting button (61) is pressed, an intermediate relay coil (67) is electrified and attracted, a dynamic contact (68) of the intermediate relay coil is closed, a reversing coil (63) is electrified to work, a hydraulic push rod pushes a surface forwards, when a push rod reciprocating collision block (14) on a long-neck push rod collides and presses a dynamic break contact (66) of a touch switch (20) to break, the intermediate relay coil (67) loses electricity, the dynamic contact (68) of the intermediate relay coil is broken, an electromagnetic reversing coil (63) loses electricity, a reversing spring elastically presses a reversing valve core to realize reversing, the hydraulic cylinder retreats after the surface pressing is finished, when the push rod reciprocating collision block (14) touches the touch switch (21), the dynamic contact (65) is closed, a new reciprocating cycle starts, and accordingly the cyclic reciprocating operation of the push rod is realized.

Fig. 8 shows the reciprocating loop principle of the two-position four-way hydraulic change valve. The pressure oil direction of the two-position four-way hydraulic change valve is controlled by a two-position two-way valve, so that the reciprocating motion of the piston is realized. The operation of the two-position two-way valve is basically the same as the principle of fig. 6, and the description is omitted.

A straight cylinder type continuous reciprocating buckwheat noodle machine is characterized in that a working cylinder assembly extrusion chamber section (4), a working cylinder assembly filling port section (5) and a working cylinder assembly push rod chamber section (6) are designed on a working cylinder assembly (3), a piston push rod for pushing a noodle is a long-neck push rod (13), a push rod reciprocating ram (14) for touching and pressing a touch switch extends out from the push rod to the working cylinder assembly at the rear part of the long-neck push rod, the push rod reciprocating ram is driven by the long-neck push rod (13) of a hydraulic cylinder (26) to do reciprocating motion outside a stroke window (16) of the push rod reciprocating ram, respectively hit two touch switches (20, 21) arranged at two ends in an operating element protection box (17), the touch switches send commands to an intermediate relay and the like, and the reversing of a hydraulic circuit is controlled by utilizing the dynamic combination of the touch switches and the intermediate relay to control the reversing of the hydraulic circuit, so that the piston push rod reciprocates in the working cylinder, and the automatic work of finishing the extrusion and the return of the filling surface at one time is realized.

The operation only needs to fill the surface, and then the reciprocating automatic surface pressing is completed through the reciprocating motion of the hydraulic oil cylinder.

Claims

1. A straight cylinder type continuous reciprocating hele noodle making machine is characterized in that: the working barrel assembly (3) is composed of a working barrel assembly extrusion chamber section (4), a working barrel assembly face filling port section (5) and a working barrel assembly push rod chamber section (6), wherein the working barrel assembly extrusion chamber section (4) is composed of a wheaten food forming filter grate pressing ring (1) and a wheaten food forming filter grate (2), the working barrel assembly face filling port section (5) is composed of a face filling port inner cover (7), a face filling port outer cover (8), a face filling port cover hinge (9), a face filling port cover handle (10), a face filling port cover handle reinforcing rib (11), the working barrel assembly face filling port section (5), the working push rod assembly push rod chamber section (6) is composed of a push rod head (12), a long neck push rod (13), a push rod reciprocating ram (14), a push rod reciprocating ram elastic ring (15), a push rod reciprocating ram stroke window (16), an operating element protection box installation platform reinforcing rib (19), an operating element protection box installation platform (17), an operating element protection box reinforcing rib (19), a touch switch (20), a touch switch (21), the cylindrical continuous reciprocating hele noodle maker is characterized in that a power control peripheral part is formed by a working cylinder assembly, a hydraulic cylinder fixing support (23), a hydraulic cylinder flange (24), a flange fixing bolt (25), a hydraulic cylinder (26), a working cylinder assembly front support (27), a hydraulic and electric appliance control box (28) and wheels (29), and a cylindrical continuous reciprocating hele noodle maker is formed by the working cylinder assembly and the power control peripheral part.

2. The cylindrical continuously reciprocating hele noodle maker according to claim 1, wherein: the reciprocating circuit is controlled by a two-position four-way electromagnetic reversing valve consisting of a hydraulic cylinder (26) stop button (40) start button (41), a two-position four-way electromagnetic reversing valve reversing coil (42), a two-position four-way electromagnetic reversing valve reversing coil (43), a two-position four-way electromagnetic reversing valve reversing coil (44), a touch switch 21 dynamic on-off contact (45), a touch switch 20 dynamic off contact (46), an intermediate relay coil (47), an intermediate relay dynamic on-off contact (48), a touch switch 20 dynamic on-off contact (49), a touch switch 21 dynamic off contact (50), an intermediate relay coil (51) and an intermediate relay dynamic on-off contact (52).

3. The cylindrical continuously reciprocating hele noodle maker according to claim 1, wherein: a hydraulic cylinder (26) stops a button (60) to start the button (61), a two-position four-way single electric control electromagnetic directional valve (62), a directional valve directional coil (63), a directional valve directional spring (64), a touch switch 21 dynamic on-off contact (65), a touch switch 20 dynamic off contact (66), an intermediate relay coil (67), and an intermediate relay dynamic on-off contact (68) form a two-position four-way single electric control electromagnetic directional valve reciprocating loop.

4. The cylindrical continuously reciprocating hele noodle maker according to claim 1, wherein: the reciprocating loop of the two-position four-way hydraulic reversing valve consists of a hydraulic cylinder (26), a two-position four-way hydraulic reversing valve (70), a two-position two-way valve (71), a two-position two-way valve coil (72), a two-position two-way valve coil (73), a stop button (74), a start button (75), a touch switch 21, a moving contact (76), a touch switch 20, a moving contact (77), an intermediate relay coil (78), an intermediate relay moving contact (79), a touch switch 20, a moving contact (80), a touch switch 21, a moving contact (81), an intermediate relay coil (82) and an intermediate relay moving contact (83).

5. The cylindrical continuously reciprocating hele noodle maker according to claim 1, wherein: other reversing valves matched with the reciprocating control loop of the straight-cylinder type continuous reciprocating hele noodle machine also comprise a two-position five-way valve, a three-position four-way valve, a three-position five-way valve, a cartridge valve, a combined valve and the like.

6. The cylindrical continuously reciprocating hele noodle maker according to claim 1, wherein: the power medium includes hydraulic and pneumatic.

7. The cylindrical continuously reciprocating hele noodle maker according to claim 1, wherein: the touch switch comprises a travel switch magnetic control switch photoelectric switch, a hydraulic travel switch and the like.