CN211020744U - Womb noodle stretching wire rod machine - Google Patents

Abstract

The utility model discloses a palace face is stretched noodle dish machine, include tray, conveying system, stretch face system, wire rod system. The noodles in the tray enter the noodle stretching system through the conveying system, and are stretched and finely twisted by the noodle stretching system and then are conveyed to the wire rod system. The utility model discloses an increase or improve loading hopper, connecting rod assembly, stretch a ware, grate, initiative friction pulley, passive friction pulley, gear, rack and solved at present in the mechanized production of palace face, stretch a efficiency lower, need the manual work to add the thin face, the wire rod in-process local palace face can the crooked problem of discounting.

Description

Womb noodle stretching wire rod machine

Technical Field

The utility model relates to a food processing machinery, in particular to palace face stretching noodle plate machine.

Background

The food processing has gradually realized mechanized production, but the mechanized production technology of the noodles in palace still needs to be improved. At present, in the mechanized production of the uterus noodles, the noodles need to be manually thinned, the noodle stretching efficiency is low, and partial uterus noodles can be bent and folded in the wire rod process.

Disclosure of Invention

The utility model aims to solve the technical problem that a palace face is stretched noodle plate machine is provided for solve the palace face and stretch a problem of inefficiency in mechanized production.

In order to solve the above problems, the utility model adopts the following technical scheme:

a womb noodle stretching coiler comprises a tray, a noodle stretching system and a noodle coiling system, wherein noodles in the tray enter the noodle stretching system through a conveying system, the noodles are stretched and finely rubbed by the noodle stretching system and then are sent to the noodle coiling system, and the noodle stretching system is provided with a noodle stretching device.

The semi-moon plate group and a driving device for driving the semi-moon plate group to move are arranged in the noodle stretching device, the semi-moon plate group comprises a semi-moon plate group and a lower semi-moon plate group, the upper semi-moon plate group comprises a plurality of semi-moon plates and gaskets, the inner circle and the outer circle of each semi-moon plate are semicircular, and adjacent semi-moon plates are axially positioned through the gaskets; the lower half moon plate group and the upper half moon plate group are identical in structure and are arranged in a staggered mode relative to the upper half moon plate group, the upper half moon plate group and the lower half moon plate group are respectively provided with two crankshafts which penetrate through and are connected with the driving device, the half moon plates are in sliding connection with the crankshafts, the gaskets are in sliding connection with the crankshafts, and the crankshafts are in a spiral shape.

The central part of the noodle pulling device is provided with a rubber lining pipe.

A grate is arranged in the charging hopper, is provided with a plurality of strip-shaped square holes which are transversely arranged and is fixedly connected with a connecting rod assembly penetrating into the charging hopper and is driven by a transmission device; the connecting rod assembly comprises a deflector rod, a pull rod, a vertical rod A, a vertical rod B and a cross rod; the bottom of the deflector rod is fixed on the driving wheel D, and the driving wheel D rotates around the central axis of the driving wheel D; the two grates are respectively fixed with two shafts of a vertical rod A and a vertical rod B, and the two shafts respectively penetrate through the charging hopper, are respectively fixed with the vertical rod A and the vertical rod B and can respectively rotate around the centers of two circles; one end of the cross rod is hinged with the lower end of the vertical rod B, and the other end of the cross rod is hinged with the middle part of the vertical rod A; one end of the pull rod is hinged with the vertical rod A, and the other end of the pull rod is connected to the top of the shifting rod and can rotate around the shifting rod.

The wire rod system comprises a wire rod disk, a transmission shaft and a driven friction wheel, and the driving system drives the wire rod system to rotate through friction transmission by the aid of the driving friction wheel and the driven friction wheel.

The gear is arranged at the lower end of a transmission shaft in the wire rod system, the rack is fixed on the outer frame and can horizontally and transversely reciprocate along the frame along with the outer frame, and the gear is meshed with the rack.

The conveying system comprises a driving wheel C, a driving wheel T, a guide ring, a driving wheel A and a driving wheel T which are arranged on the frame and play a role in guiding the noodles, and the driving wheel T can rotate under the driving of the transmission device.

The utility model discloses an actively the effect does:

after the noodle stretching device is added, the motor drives the semilunar plate group through the driving device to extrude the rubber lining pipe, so that the noodles passing through the semilunar plate group are extruded, stretched and thinned, and the noodle stretching efficiency in the mechanical production of the palace noodles is improved. The adoption of the hopper, the grate and the connecting rod assembly enables the noodles passing through the hopper to be automatically thinned. Because the drive system and the wire rod system are in transmission in a friction mode, the linear speed of the noodles and the linear speed of the contact point of the wire rod disk and the noodles can be kept consistent, and therefore the problem that local noodles can be bent and broken due to the fact that the two linear speeds are inconsistent in the process of coiling the noodles is solved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is an external schematic view of a stretcher;

FIG. 3 is a schematic view of the structure of the noodle stretcher after removing the shell;

FIG. 4 is a schematic view of the construction of the stretcher with the shell, partial meniscus and spacers removed;

FIG. 5 is a schematic structural view of the link mechanism;

in the figure, 101, a tray; 102. a connecting rod assembly; 103. a hopper; 104. a grate; 105 a transmission wheel A; 106. stretching the noodles; 107. a driving wheel B; 108. coiling a strip disc; 109. a reduction motor; 110. A driven friction wheel; 111. a driving friction wheel; 112. a gear; 113. a drive shaft; 114. a rack; 115. A driving wheel C; 116. a driving wheel D; 117. a guide ring; 201. a motor; 202. a rubber lining tube; 203. a housing; 204. A meniscus; 205. a gasket; 206. a crankshaft; 1021. a deflector rod; 1022. a pull rod; 1023. a vertical rod A; 1024. a cross bar; 1025. vertical bar B

Detailed Description

As shown in fig. 1-4, the main structure of the womb noodle stretching wire rod is a tray 101, a conveying system, a noodle stretching system and a wire rod system. The conveying system comprises a driving wheel A105, a driving wheel B107, a driving wheel C115, a driving wheel T116 and a guide ring 117 and is mainly responsible for conveying the noodles in the processing process.

The noodle stretching system is provided with a noodle stretching device 106, the exterior of the noodle stretching device is a shell 203, a motor 201 is arranged outside the shell 203, and a meniscus group and a driving device for driving the meniscus group to move are arranged inside the shell 203. The meniscus group comprises a meniscus group and a meniscus group. The upper meniscus group comprises a plurality of menisci 205 and gaskets 206, the gaskets 206 are used for axially positioning between two adjacent menisci 205, the lower meniscus group is positioned below the upper meniscus group and symmetrically arranged with the upper meniscus group, and the lower meniscus group and the upper meniscus group are staggered in the axial direction, namely, the menisci 205 of the lower meniscus group are positioned at the gasket positions of the upper meniscus group in the axial direction, and the structure of the lower meniscus group is the same as that of the upper meniscus group. The four crankshafts 207 are divided into two groups, and two crankshafts in each group respectively penetrate through the upper half-moon plate group and the lower half-moon plate group and are connected with the driving device. The meniscus 205 and the crankshaft 207, and the shim 206 and the crankshaft 207 are slidably connected. The crankshaft 207 is helically shaped so that adjacent menisci 205 are out of phase with each other as they move. The motor 201 drives the crankshaft 207 to rotate through the driving device, the crankshaft 207 drives the half-moon plate groups to do vertical and horizontal eccentric motion, the rubber lining pipe 202 in the center of the noodle stretching device 106 is sequentially extruded by the half-moon plate groups along the axial direction, therefore, the noodles passing through the rubber lining pipe 202 are extruded, and the process simulates the process of manually rubbing the noodles. The noodle stretching device 106 can effectively improve the noodle stretching efficiency.

Two grates 104 are arranged in the feeding hopper 103, a plurality of transverse square holes are arranged on the grates 104, and the grates 104 are respectively fixed on shafts of a vertical rod second 1025 and a vertical rod first 1023 penetrating into the feeding hopper 103. The speed reduction motor 109 drives the driving wheel block 116 through a transmission device and the driving lever 1021 fixed on the driving wheel block 116 to rotate around the shaft of the driving wheel block 116. The pull rod 1022 moves by a crank rocker under the driving of the driving lever 1021, so that the vertical rod A1023 hinged to the end of the pull rod 1022 swings around the shaft of the vertical rod A1023, and the swing is transmitted to the vertical rod 1025 hinged to the cross rod 1024 through the cross rod 1024, so that the vertical rod 1025 swings synchronously along with the vertical rod 1023, and the two grates 104 fixed on the shafts of the vertical rod B1025 and the vertical rod A1023 respectively swing back and forth around the shafts of the vertical rod B1025 and the vertical rod A1023. The thin noodles are filled in the feeding hopper 103, the noodles are fed into the feeding hopper 103 by the conveying system and then pass through the square hole on the grate 104, and when the grate 104 drives the noodles in the square hole to swing together, the thin noodles can be uniformly adhered to the surface of the passing noodles. The process is mechanized and does not need manual participation.

The wire rod system includes a wire rod disk 108, a drive shaft 113, a gear 112, and a driven friction wheel 110. The reduction motor 109 drives the driving friction wheel 111 to rotate through the driving system, the driving friction wheel 111 drives the driven friction wheel 110 to rotate through friction force, and then drives the cam plate 108 to rotate through the transmission shaft 113. Because the friction transmission is adopted between the driving friction wheel 111 and the driven friction wheel 110, the noodle line speed entering the wire rod system and the linear speed of the contact point of the wire rod disk 108 and the noodle are kept consistent, and the phenomenon that the noodle is folded and bent due to the fact that the two linear speeds are inconsistent is avoided.

The lower end of the transmission shaft 113 is provided with a gear 112, and two racks 114 are fixed on the same outer frame and can horizontally and transversely move along with the outer frame. When the gear 112 drives the wire rod system to do longitudinal linear motion along one of the racks 114 and reach one end of the rack 114, the travel switch is triggered, the servo system is triggered, the outer frame and the rack 114 thereon do transverse motion, the other rack 114 is meshed with the gear 112, and therefore the moving direction of the wire rod system driven by the gear 112 is opposite to that of the previous one. Similarly, when the other end of the rack 114 is reached, another travel switch is triggered, the servo system is triggered again, and the moving direction of the wire rod system is changed again, so that the wire rod system can perform reciprocating linear motion along the direction of the rack 114. The rotational and reciprocating linear motion of the wire rod system allows the noodles in the wire rod disk 108 to be uniformly coiled throughout the interior thereof.

The working process of the noodle drawing disk machine for palace noodles is as follows: the noodles pass through the guide ring 117 from the tray 108 through the driving wheel 115, enter the hopper 103 through the driving wheel 116 and pass through the square hole on the grate 104, and the grate 104 drives the noodles to swing together, so that the surfaces of the noodles passing through the grate 104 are uniformly stained with thin noodles. The noodles dipped with the thin noodles enter a noodle stretching device 106 through a first driving wheel 105, are stretched and finely twisted by the noodle stretching device 106, pass through a second driving wheel 107 and are coiled in a wire rod disk 108.

Claims (6)

1. A palace noodle stretching noodle coiling machine is characterized by comprising a tray (101), a noodle stretching system and a noodle coiling system, wherein noodles in the tray (101) enter the noodle stretching system through a conveying system, are stretched and finely rolled by the noodle stretching system, and are sent to the noodle coiling system, and the noodle stretching system is provided with a noodle stretching device (106);

the wire rod system comprises a wire rod disk (108), a transmission shaft (113) and a driven friction wheel (110), and the driving system drives the wire rod system to rotate through friction transmission through a driving friction wheel (111) and the driven friction wheel (110).

2. The palace noodle-stretching noodle plate machine according to claim 1, wherein a meniscus group and a driving device for driving the meniscus group to move are arranged in the noodle stretching device (106), the meniscus group comprises an upper meniscus group and a lower meniscus group, the upper meniscus group comprises a plurality of menisci (205) and gaskets (206), the inner circle and the outer circle of each meniscus (205) are semicircular, and adjacent menisci (205) are axially positioned through the gaskets (206); the lower half-moon plate group is identical to the upper half-moon plate group in structure and is arranged in a staggered mode relative to the upper half-moon plate group, the upper half-moon plate group and the lower half-moon plate group are respectively provided with two crankshafts (207) which penetrate through and are connected with a driving device, the half-moon plates (205) are in sliding connection with the crankshafts (207), gaskets (206) are in sliding connection with the crankshafts (207), and the crankshafts (207) are in a spiral shape.

3. The palace noodle-stretching plate machine according to claim 1 or 2, characterized in that a rubber lining pipe (202) is arranged at the center of the noodle-stretching device (106).

4. The palace noodle stretching machine according to claim 1, wherein a grate (104) is arranged in the charging hopper (103), the grate (104) is provided with a plurality of strip-shaped square holes which are transversely arranged and fixedly connected with a connecting rod assembly (102) penetrating into the charging hopper (103), and is driven by a transmission device; the connecting rod assembly (102) comprises a driving lever (1021), a pull rod (1022), a vertical rod A (1023), a vertical rod B (1025) and a cross rod (1024); the bottom of the deflector rod (1021) is fixed on the driving wheel block (116), and the driving wheel block (116) rotates around the central axis thereof; the two grates (104) are respectively fixed with two shafts of a vertical rod A (1023) and a vertical rod B (1025), and the two shafts respectively penetrate through the feeding hopper (103), are respectively fixed with the vertical rod A (1023) and the vertical rod B (1025) and can respectively rotate around the centers of two circles; one end of the cross rod (1024) is hinged with the lower end of the vertical rod B (1025), and the other end of the cross rod is hinged with the middle part of the vertical rod A (1023); one end of the pull rod (1022) is hinged with the vertical rod A (1023), and the other end of the pull rod is connected to the top of the driving lever (1021) and can rotate around the driving lever (1021).

5. The palace noodle-stretching plate machine according to claim 1, wherein the gear (112) is installed at the lower end of the transmission shaft (113) in the plate system, the rack (114) is fixed on the outer frame and can horizontally and transversely reciprocate along the frame along with the outer frame, and the gear (112) and the rack (114) are engaged.

6. The palace noodle stretching machine according to claim 1, wherein the conveying system comprises a driving wheel C (115), a driving wheel D (116), a guide ring (117), a driving wheel A (105) and a driving wheel B (107), the driving wheel C (116) is arranged on the frame and plays a role in guiding noodles, and the driving wheel D (116) can rotate under the driving of the transmission device.

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