CN214296649U - Five-bag arranging and conveying mechanism for instant noodles - Google Patents

Abstract

The utility model provides a five package arrangement conveying mechanism of instant noodles relates to the instant noodles and produces the mechanical manufacturing technical field, has solved the technical problem that needs the manual work to carry out five package ration partial shipment vanning production efficiencies and hang down and manufacturing cost too high among the current bagged instant noodles production process, and this five package arrangement conveying mechanism of instant noodles includes row's package conveyer (1), penetrates package conveyer (2), collection package conveyer (3) and carton packing apparatus (4). The utility model relates to a simple structure can realize that no manual work produces five even packing quantitative vanning to the instant noodle, practices thrift manufacturing cost, improves production efficiency.

Description

Five-bag arranging and conveying mechanism for instant noodles

Technical Field

The utility model relates to an instant noodle produces mechanical manufacturing technical field, concretely relates to five even package arrangement conveying mechanisms of instant noodle.

Background

In the production process of instant noodles in bags, the bagged instant noodles transported by other processes need to be transported, quantitatively boxed and the like, the conventional bagged instant noodles are manually quantitatively boxed with five-link instant noodles, the boxing efficiency is low, the labor cost is increased, and the production cost is too high and does not have market competitiveness.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an instant noodle five-pack sorting and conveying mechanism, the technical problem that five-pack quantitative subpackaging and boxing production efficiency is too low and production cost is too high in the existing bagged instant noodle production process is needed to be carried out manually is solved. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a five-pack arrangement conveying mechanism for instant noodles comprises a pack arrangement conveyor, a pack injection conveyor, a pack collection conveyor and a carton packing device; wherein:

the package injecting conveyor is arranged between the package arranging conveyor and the package collecting conveyor, and the carton packing device is arranged on one side of the package collecting conveyor.

Preferably, the bale arranging conveyor comprises a machine body, a motor, a conveying belt, a first guide rod, a second guide rod, a third guide rod, a first air cylinder, a rotating plate, a driving roller, a front mounting plate, a stand vertical plate, an outer casing and an earring seat; wherein: the machine body comprises a machine frame and supporting legs arranged on the machine frame, the motor is arranged on a fixed block through a motor mounting plate, the fixed block is arranged on the machine frame, at least two supporting columns are arranged between the machine frame, a conveying belt supporting plate is further arranged on the supporting columns, a first guide rod, a second guide rod and a third guide rod are all arranged on two sides of the machine frame through guide rod mounting parts, a bag pushing position detection sensor is arranged on the machine frame between the second guide rod and the third guide rod, a first air cylinder is arranged on the machine frame through an earring seat, the other end of the first air cylinder is connected with a rotating plate arranged on the machine frame, the rotating plate is fixed on the machine frame through a rotating shaft seat,

the conveyer belt walks around driving roll, driven roll one, driven roll two and driven roll three respectively and forms to encircle and carry, driving roll passes through the driving roll axle and is connected with the motor and install in the frame, driven roll one and driven roll two are installed on the front mounting panel through driven roll axle one, driven roll axle two respectively, the front mounting panel is installed at the frame inboard, the driven roll tee bend is installed on the frame riser through driven roll axle three, the frame riser is installed in the frame outside.

Preferably, the package injecting conveyor comprises a rack, a gear cover, a second air cylinder, a package injecting baffle, a first conveying device, a second conveying device, a third conveying device and a package clamping device; wherein:

the gear cover is arranged on one side of the rack, one ends of the first conveying device and the second conveying device are connected with the rack through the conveyor support, and the other ends of the first conveying device and the second conveying device are connected and fixed with the gear cover through the first bearing seat and the second bearing seat respectively;

one end of the third conveying device is fixedly connected with the gear cover through the first hanging bracket, and the other end of the third conveying device is fixedly connected with the gear cover through the third bearing seat;

the clamping device comprises a pressing plate and a spring column welded on the pressing plate, and is connected to the gear cover through a bracket and a second hanging bracket;

a rail is arranged on each of two sides of the first conveying device and the second conveying device through a vertical barrier;

the second cylinder is installed on the rack through a cylinder installation seat, the second ladle ejection baffle is installed on a telescopic rod of the second cylinder, and the second ladle ejection baffle is located between the first conveying device and the second conveying device;

two motors are also fixed on the gear cover.

Preferably, the bag collecting conveyor comprises a first rack, a second rack, a conveying device, a partition plate, a driven sprocket, a driving sprocket, an upper pressure plate, a bag pushing position detection device, a first bag pushing cylinder, a second bag pushing cylinder and a guide cylinder; wherein:

the second rack is arranged on one side of the first rack, and the conveying device is arranged on the first rack;

one end of the rack is provided with a front cover, and the other end of the rack is provided with a rear cover; the photoelectric switch and the sensor mounting seat are mounted on the front cover, and the photoelectric switch is mounted on the front cover through the sensor mounting seat;

the conveying device comprises two machine body side plates which are connected together through a plurality of machine body connecting plates; side plate mounting seats are mounted on the side plates of the machine body; the side plate of the machine body is also provided with a guardrail through a guardrail supporting plate, the driven chain wheel and the driving chain wheel are both arranged on the side plate of the machine body through a bearing with a seat, and chains are arranged on the driven chain wheel and the driving chain wheel; the chain is characterized in that the partition plate is installed on the chain through a partition plate installation seat, the two driven chain wheels and the two driving chain wheels are respectively connected with the driving shaft through driven shafts, the driving shaft is further connected with a driving motor through a coupling, the driving motor is installed on a side plate of the machine body through a motor installation plate, and a chain guide rail is further arranged between the driven chain wheels and the driving chain wheels;

the upper pressing plate is arranged on the first rack and is positioned above the driven chain wheel and the partition plate;

the bag pushing position detection device comprises a detection position adjusting seat arranged on a side plate of the machine body and a photoelectric switch arranged on the detection position adjusting seat through a sensor mounting seat,

the push-type bag pushing device is characterized in that a first push-type bag air cylinder and a second push-type bag air cylinder are respectively installed on a second frame through air cylinder moving devices, a push-type panel is installed on air cylinder telescopic rods of the first push-type bag air cylinder and the second push-type bag air cylinder through installation blocks, a bottom plate is further installed on the second frame, a first guide plate and a second guide plate are arranged on the bottom plate, the first guide plate is installed on the bottom plate through a guide plate installation seat, and the second guide plate is connected with a guide air cylinder and fixed on the bottom plate through a guide air cylinder installation seat.

Based on the technical scheme, the following technical effects can be generated:

the embodiment of the utility model provides a pair of five package arrangement conveying mechanism of instant noodle can be used to transport, five whole flows such as even quantitative vanning of package at instant noodle production process to the instant noodle bag. The utility model relates to an instant noodle five-link package arrangement conveying mechanism transports the instant noodle area through arranging the package conveyer and penetrates a package conveyer, transports the album package conveyer by penetrating a package conveyer again, has the album package conveyer to carry out five-link package at last and separates, send into carton packing apparatus vanning after separating the completion, has solved the technical problem that current instant noodle in bags production process needs the manual work to carry out five-link package ration partial shipment vanning production efficiency low excessively and manufacturing cost is too high. The utility model relates to a simple structure can realize that no manual work produces five even packing quantitative vanning to the instant noodle, practices thrift manufacturing cost, improves production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the front structure of the bale arranging conveyor of the present invention;

FIG. 3 is a schematic view of the material limiting structure of the bale arranging conveyor of the present invention;

FIG. 4 is a schematic view of the mounting structure of the front mounting plate and the vertical plate of the frame of the bag-in-bag conveyor of the present invention;

FIG. 5 is a schematic structural diagram of the position of a first driven roller and a second driven roller of the bale arranging conveyor of the invention;

FIG. 6 is a schematic view of the structure of the bale arranging conveyor in another direction;

FIG. 7 is a schematic view of the mounting position of the driven roller II of the bale arranging conveyor of the invention;

FIG. 8 is a schematic view of the front structure of the ladle-shooting conveyor of the present invention;

fig. 9 is a schematic view of the shaft side structure of the ladle-shooting conveyor of the present invention;

fig. 10 is a schematic structural view of the conveying device of the bale shooting conveyor of the present invention;

FIG. 11 is a schematic view showing a connection relationship between a conveying device and a gear cover of the ladle-shooting conveyor of the present invention;

FIG. 12 is a schematic structural view of a gear cover of the ladle-shooting conveyor of the present invention;

fig. 13 is a schematic view of the power structure of the bale shooting conveyor of the present invention;

fig. 14 is a front view of the frame of the present invention;

FIG. 15 is a schematic view of the front structure of the second frame of the present invention;

FIG. 16 is a schematic view of the structure of the air cylinder for pushing the bag according to the present invention;

fig. 17 is a schematic view of the overall structure of the conveying device of the present invention;

FIG. 18 is a schematic view of the installation position of the air cylinder of the push-bag of the present invention;

fig. 19 is a schematic view of the assembly of the driving motor and the driving sprocket of the present invention;

FIG. 20 is a power structure diagram of the conveying device of the present invention;

FIG. 21 is an installation diagram of the push-to-package position detection device of the present invention;

fig. 22 is an installation schematic view of the push-bag cylinder and the cylinder moving device of the present invention;

FIG. 23 is a schematic view of the position of the push-bag cylinder and the partition plate according to the present invention;

fig. 24 is a schematic view of the mounting structure of the bottom plate of the present invention;

fig. 25 is a schematic view (the other direction) of the installation of the push-bag cylinder and the cylinder moving device of the present invention;

in the figure: 1. a bale arranging conveyor; 101. a body; 102. a motor; 103. a conveyor belt; 104. a first guide rod; 105. a second guide rod; 106. a third guide rod; 107. a pack pushing position detection sensor; 108. a first cylinder; 109. a rotating plate; 110. a driving roller; 111. a driven roller I; 112. a driven roller II; 113. a driven roller III; 114. a front mounting plate; 115. a stand vertical plate; 116. an outer casing; 117. an earring seat; 2. a bale-shooting conveyor; 201. a frame; 202. a gear cover; 203. a second air cylinder; 204. a shooting bag baffle; 205. a first conveying device; 206. a second conveying device; 207. a third conveying device; 208. a card wrapping device; 3. a bag collecting conveyor; 301. a first machine frame; 302. a second frame; 303. a front cover; 304. a rear cover; 305. a conveying device; 305-1, a fuselage side panel; 305-2, a fuselage connection plate; 305-3, a side plate mounting seat; 305-4, guardrails; 305-5, a partition board; 305-6, a chain; 305-7, a driven sprocket; 305-8, a drive sprocket; 305-9, an active motor; 306. an upper pressure plate; 307. a pack pushing position detection device; 308. a first bag pushing cylinder; 309. a second bag pushing cylinder; 310. a cylinder moving device; 311. a base plate; 312. a first guide plate; 313. a second guide plate; 314. a guide cylinder; 4. carton baling press.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1-12:

the utility model provides

A five-pack arrangement conveying mechanism for instant noodles comprises a pack arrangement conveyor 1, a pack injection conveyor 2, a pack collection conveyor 3 and a carton packing device 4; wherein:

the bag injecting conveyor 2 is arranged between the bag arranging conveyor 1 and the bag collecting conveyor 3, and the carton packing device 4 is arranged on one side of the bag collecting conveyor 3.

As an alternative embodiment, the bale arranging conveyor comprises a body 101, a motor 102, a conveyor belt 103, a guide rod I104, a guide rod II 105, a guide rod III 106, a cylinder I108, a rotating plate 109, a driving roller 110, a front mounting plate 114, a stand vertical plate 115, an outer casing 116 and an earring seat 117; wherein:

the machine body 101 comprises a machine frame and supporting legs arranged on the machine frame, the motor 102 is arranged on a fixed block through a motor mounting plate, the fixed block is arranged on the machine frame, at least two supporting columns are further arranged between the machine frame, a conveying belt supporting plate is further arranged on the supporting columns, the first guide rod 104, the second guide rod 105 and the third guide rod 106 are all arranged on two sides of the machine frame through guide rod mounting pieces, a bag pushing position detection sensor 107 is arranged on the machine frame between the second guide rod 105 and the third guide rod 106, the first air cylinder 108 is arranged on the machine frame through an earring seat 117, the other end of the first air cylinder is connected with a rotating plate 109 arranged on the machine frame, the rotating plate 109 is fixed on the machine frame through a rotating shaft seat,

the conveyer belt 103 respectively bypasses a driving roller 110, a driven roller I111, a driven roller II 112 and a driven roller III 113 to form circular conveying, the driving roller 110 is connected with the motor 102 through a driving roller shaft and is installed on the rack, the driven roller I111 and the driven roller II 112 are respectively installed on a front installation plate 114 through a driven roller shaft I and a driven roller shaft II, the front installation plate 114 is installed on the inner side of the rack, the driven roller III 113 is installed on a rack vertical plate 115 through a driven roller shaft III, and the rack vertical plate 115 is installed on the outer side of the rack.

As an alternative embodiment, the bale injecting conveyor comprises a frame 201, a gear cover 202, a second air cylinder 203, a bale injecting baffle 204, a first conveying device 205, a second conveying device 206, a third conveying device 207 and a bale clamping device 208; wherein:

the gear cover 202 is installed on one side of the rack 201, one end of each of the first conveying device 205 and the second conveying device 206 is connected with the rack 201 through a conveyor support, and the other end of each of the first conveying device and the second conveying device is connected and fixed with the gear cover 202 through a bearing block I and a bearing block II;

one end of the third conveying device 207 is fixedly connected with the gear cover 202 through a first hanging bracket, and the other end of the third conveying device is fixedly connected with the gear cover 202 through a third bearing seat;

the clamping device 208 comprises a pressing plate and a spring post welded on the pressing plate, and the clamping device 208 is connected to the gear cover 202 through a bracket and a second hanging bracket;

a rail is arranged on each of two sides of the first conveying device 205 and the second conveying device 206 through a vertical rail;

the second air cylinder 203 is mounted on the frame 201 through an air cylinder mounting seat, the second package injecting baffle 204 is mounted on an expansion link of the second air cylinder 203, and the second package injecting baffle 204 is located between the first conveying device 205 and the second conveying device 206;

two motors are also fixed on the gear cover 202.

As an alternative embodiment, the bag collecting conveyor comprises a first rack 301, a second rack 302, a conveying device 305, a partition plate 305-5, a driven sprocket 305-7, a driving sprocket 305-8, an upper pressure plate 306, a bag pushing position detection device 307, a bag pushing cylinder one 308, a bag pushing cylinder two 309 and a guide cylinder 314; wherein:

the second rack 302 is arranged on one side of the first rack 301, and the conveying device 305 is arranged on the first rack 301;

one end of the first rack 301 is provided with a front cover 303, and the other end of the first rack is provided with a rear cover 304; a photoelectric switch and a sensor mounting seat are mounted on the front cover 303, and the photoelectric switch is mounted on the front cover 303 through the sensor mounting seat;

the conveyor 305 comprises two fuselage side panels 305-1 connected together by a plurality of fuselage connecting panels 305-2; the side plate mounting seats 305-3 are mounted on the side plates 305-1 of the machine body; a guardrail 305-4 is further mounted on the side plate 305-1 of the machine body through a guardrail supporting plate, the driven chain wheel 305-7 and the driving chain wheel 305-8 are mounted on the side plate 305-1 of the machine body through bearings with seats, and a chain 305-6 is arranged on the driven chain wheel 305-7 and the driving chain wheel 305-8; the partition plate 305-5 is installed on a chain 305-6 through a partition plate installation seat, the two driven chain wheels 305-7 and the two driving chain wheels 305-8 are respectively connected with a driving shaft through a driven shaft, the driving shaft is further connected with a driving motor 305-9 through a coupling, the driving motor 305-9 is installed on a side plate 305-1 of a machine body through a motor installation plate, and a chain guide rail is further arranged between the driven chain wheels 305-7 and the driving chain wheels 305-8 of the chain 305-6;

the upper pressure plate 306 is arranged on the first rack 301 and is positioned above the driven chain wheel 305-7 and the partition plate 305-5;

the bag pushing position detecting device 307 comprises a detecting position adjusting seat arranged on the side plate 305-1 of the machine body, and a photoelectric switch arranged on the detecting position adjusting seat through a sensor mounting seat,

push away a packet cylinder 308, push away a packet cylinder two 309 and install on frame two 302 through cylinder mobile device 310 respectively, push away a packet cylinder 308, push away all install through the installation piece on the cylinder telescopic link of a packet cylinder two 309 and push away the panel, frame two 302 still installs bottom plate 311, be equipped with deflector 312 and deflector two 313 on the bottom plate 311, deflector 312 is installed on bottom plate 311 through the deflector mount pad, deflector two 313 are connected with direction cylinder 314 to fix on bottom plate 311 through direction cylinder 314 mount pad.

As an optional embodiment, the stand upright plates 115 are all provided with tensioning blocks.

In an alternative embodiment, an outer casing 116 mounted on the frame is provided outside the cylinder 108.

As an optional implementation mode, the supporting legs are respectively provided with a liftable foot margin.

As an alternative embodiment, the guide bar mounting part comprises a guide bar mounting seat mounted on the machine frame and a stay bar fixed on the guide bar mounting seat through a bolt, and a guide bar clamp is mounted at one end of the stay bar.

As an optional implementation mode, the first conveying device 205 includes a first driven shaft installed on a first conveyor side plate and a first driving shaft installed on the first conveyor side plate through a first bearing with a bearing seat, a first conveyor supporting plate and a first conveyor connecting plate are further arranged between the first conveyor side plates, a first driven wheel and a first driving wheel are installed on the first driving shaft and the first driven shaft respectively, a first belt is installed on the first driven wheel and the first driving wheel, one end of the first driving shaft is fixed on the gear cover 202 through the first bearing seat, and a first chain wheel is arranged on the first driving shaft.

As an optional implementation mode, the second conveying device 206 includes a second driven shaft installed on the second conveyor side plate and a second driving shaft installed on the second conveyor side plate through a second bearing with a bearing seat, a second conveyor supporting plate and a second conveyor connecting plate are further disposed between the second conveyor side plates, the second driving shaft and the second driven shaft are respectively provided with a second driven wheel and a second driving wheel, the second driven wheel and the second driving wheel are provided with a second belt, two ends of the second driving shaft are fixed on the gear cover 202 through the second bearing seat, and a second chain wheel is disposed on the second driving shaft.

As an optional implementation mode, the third conveying device 207 includes a third driven shaft installed on a third conveyor side plate and a third driving shaft installed on the third conveyor side plate through a third bearing with a seat, a third conveyor supporting plate and a third conveyor connecting plate are further arranged between the third conveyor side plates, a third driven wheel and a third driving wheel are respectively installed on the third driving shaft and the third driven shaft, a third belt is installed on the third driven wheel and the third driving wheel, the three ends of the third driving shaft are fixed on the gear cover 202 through the third bearing seat, a third chain wheel is arranged on the third driving shaft, a connecting support rod is installed on the third conveying device 207 through a third conveyor connecting plate, the connecting support rod is connected with the first hanging bracket through a screw, and a spring and a locking nut are further arranged on the screw.

As an alternative embodiment, the gear cover 202 includes an upper cover shell and a lower cover shell, and the upper cover shell and the lower cover shell are connected through a plurality of connecting devices, and the connecting devices include a linear bearing seat, a guide rod and a guide rod seat.

As an optional embodiment, the motors are mounted on the gear cover through motor mounting plates, each motor is provided with a motor chain wheel, and at least 3 idler wheel seats and corresponding idler wheels are further mounted on the gear cover.

As an alternative embodiment, a spring and a lock nut are arranged on the spring post of the clamping device 208, and the bracket is mounted on the second hanger through a bolt.

As an optional implementation mode, the motor chain wheel, the idler wheel, the first chain wheel, the second chain wheel and the third chain wheel are connected and driven through a chain.

In an alternative embodiment, the first push packet cylinder 308 and the second push packet cylinder 309 are respectively located on two sides of the partition 305-5.

As an optional implementation mode, lifting feet are mounted below the first frame 301 and the second frame 302.

The utility model relates to a five even package arrangement conveying mechanism's of instant noodle working process as follows:

starting the five-pack sorting and conveying mechanism of the instant noodles, conveying the instant noodles to a pack injecting conveyor 2 by a pack arranging conveyor 1, then conveying the instant noodles to a pack collecting conveyor 3 by the pack injecting conveyor 2, finally separating five packs by the pack collecting conveyor 3, and conveying the separated instant noodles into a carton packing device 4 for packing after separation;

when the bag arranging conveyor normally transports, the instant noodle belt is transported from one end of the machine to the other end, when the instant noodle bags at the receiving end start to be stacked, the first air cylinder 108 drives the rotating plate 109 to rotate, namely, the instant bread is isolated at one side of the transporting end, and when the stacking of the receiving end is relieved, the rotating plate 109 returns to the original position and continues to transport;

when the transportation length of the bag arranging conveyor needs to be adjusted, the installation position of the front installation plate 114 is changed, and then the tensioning block on the vertical plate 115 of the rack is adjusted, so that the length of the conveyer belt is changed, and the bag arranging conveyor is suitable for different transportation conditions;

the instant bread is conveyed to the bag-shooting conveyor from another machine successively, the first conveying device 205 and the card-packing device 208 guide and transport the instant bread slightly, the first conveying device 205 and the card-packing device 208 can apply a proper extrusion force to the instant bread in the guiding process, the instant bread is transported to the second conveying device 206 and the third conveying device 207 and is accelerated and emitted to a next-process machine through the second conveying device 206 and the third conveying device 207, and when the next-process machine is not emitted in the previous process, the telescopic rod of the air cylinder two 203 drives the bag-shooting baffle plate 204 to extend out to baffle the instant bread between the first conveying device 205 and the second conveying device 206;

the packaging machine is started, the instant noodle bags are conveyed to the partition plate 305-5 from the packaging machine through the partition plate pair for quantitative conveying of bag number, the instant noodle bags are conveyed to the position of the first pushing cylinder 308, the first pushing cylinder 308 is matched with the cylinder moving device, the instant noodle bags are pushed to the bottom plate 311, and the bagged instant noodle on the bottom plate 311 reaches the boxing standard and is pushed to the packaging box by the second pushing cylinder 309.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (4)

1. The utility model provides an instant noodle five-link package arrangement conveying mechanism, includes row package conveyer (1), penetrates package conveyer (2), album package conveyer (3) and carton packing apparatus (4), its characterized in that:

the bag injecting conveyor (2) is arranged between the bag arranging conveyor (1) and the bag collecting conveyor (3), and the carton packing device (4) is arranged on one side of the bag collecting conveyor (3).

2. The five-pack tidying and conveying mechanism for instant noodles according to claim 1, characterized in that: the bale arranging conveyor comprises a machine body (101), a motor (102), a conveying belt (103), a first guide rod (104), a second guide rod (105), a third guide rod (106), a first air cylinder (108), a rotating plate (109), a driving roller (110), a front mounting plate (114), a stand vertical plate (115), an outer casing (116) and an earring seat (117); wherein:

the machine body (101) comprises a rack and supporting legs arranged on the rack, a motor (102) is arranged on a fixed block through a motor mounting plate, the fixed block is arranged on the rack, at least two supporting columns are arranged between the rack, a conveying belt supporting plate is arranged on the supporting columns, a first guide rod (104), a second guide rod (105) and a third guide rod (106) are arranged on two sides of the rack through guide rod mounting pieces, a bag pushing position detection sensor (107) is arranged on the rack between the second guide rod (105) and the third guide rod (106), a first cylinder (108) is arranged on the rack through an ear ring seat (117), the other end of the first cylinder is connected with a rotating plate (109) arranged on the rack, and the rotating plate (109) is fixed on the rack through a rotating shaft seat,

the conveying belt (103) is respectively wound around a driving roller (110), a driven roller I (111), a driven roller II (112) and a driven roller III (113) to form encircling conveying, the driving roller (110) is connected with a motor (102) through a driving roller shaft and is installed on a rack, the driven roller I (111) and the driven roller II (112) are respectively installed on a front installation plate (114) through a driven roller shaft I and a driven roller shaft II, the front installation plate (114) is installed on the inner side of the rack, the driven roller III (113) is installed on a rack vertical plate (115) through the driven roller shaft III, and the rack vertical plate (115) is installed on the outer side of the rack.

3. The five-pack tidying and conveying mechanism for instant noodles according to claim 1, characterized in that: the package injecting conveyor comprises a rack (201), a gear cover (202), a second air cylinder (203), a package injecting baffle (204), a first conveying device (205), a second conveying device (206), a third conveying device (207) and a package clamping device (208); wherein:

the gear cover (202) is installed on one side of the rack (201), one ends of the first conveying device (205) and the second conveying device (206) are connected with the rack (201) through the conveyor support, and the other ends of the first conveying device and the second conveying device are connected with and fixed to the gear cover (202) through the first bearing seat and the second bearing seat respectively;

one end of the third conveying device (207) is fixedly connected with the gear cover (202) through the first hanging bracket, and the other end of the third conveying device is fixedly connected with the gear cover (202) through the third bearing seat;

the clamping and packing device (208) comprises a pressing plate and a spring post welded on the pressing plate, and the clamping and packing device (208) is connected to the gear cover (202) through a bracket and a second hanging bracket;

a rail is arranged on each of two sides of the first conveying device (205) and the second conveying device (206) through a vertical rail;

the second air cylinder (203) is mounted on the rack (201) through an air cylinder mounting seat, the package shooting baffle (204) is mounted on an expansion link of the second air cylinder (203), and the package shooting baffle (204) is located between the first conveying device (205) and the second conveying device (206);

two motors are further fixed on the gear cover (202).

4. The five-pack tidying and conveying mechanism for instant noodles according to claim 1, characterized in that: the bag collecting conveyor comprises a first rack (301), a second rack (302), a conveying device (305), a partition plate (305-5), a driven sprocket (305-7), a driving sprocket (305-8), an upper pressing plate (306), a bag pushing position detection device (307), a first bag pushing cylinder (308), a second bag pushing cylinder (309) and a guide cylinder (314); wherein:

the second rack (302) is arranged on one side of the first rack (301), and the conveying device (305) is arranged on the first rack (301);

one end of the first rack (301) is provided with a front cover (303), and the other end of the first rack is provided with a rear cover (304); a photoelectric switch and a sensor mounting seat are mounted on the front cover (303), and the photoelectric switch is mounted on the front cover (303) through the sensor mounting seat;

the conveying device (305) comprises two fuselage side plates (305-1) which are connected together through a plurality of fuselage connecting plates (305-2); side plate mounting seats (305-3) are mounted on the side plates (305-1) of the machine body; a guardrail (305-4) is further mounted on the side plate (305-1) of the machine body through a guardrail supporting plate, the driven chain wheel (305-7) and the driving chain wheel (305-8) are mounted on the side plate (305-1) of the machine body through a bearing with a seat, and a chain (305-6) is arranged on the driven chain wheel (305-7) and the driving chain wheel (305-8); the partition plate (305-5) is installed on a chain (305-6) through a partition plate installation seat, the two driven chain wheels (305-7) and the two driving chain wheels (305-8) are respectively connected with a driving shaft through driven shafts, the driving shaft is further connected with a driving motor (305-9) through a coupling, the driving motor (305-9) is installed on a side plate (305-1) of the machine body through a motor installation plate, and a chain guide rail is further arranged between the driven chain wheels (305-7) and the driving chain wheels (305-8) of the chain (305-6);

the upper pressure plate (306) is arranged on the first rack (301) and is positioned above the driven chain wheel (305-7) and the partition plate (305-5);

the bag pushing position detection device (307) comprises a detection position adjusting seat arranged on a side plate (305-1) of the machine body and a photoelectric switch arranged on the detection position adjusting seat through a sensor mounting seat,

push away a packet cylinder (308), push away a packet cylinder two (309) and install on frame two (302) through cylinder mobile device (310) respectively, push away a packet cylinder (308), push away all install through the installation piece on the cylinder telescopic link of a packet cylinder two (309) and push away the panel, bottom plate (311) are still installed to frame two (302), be equipped with deflector (312) and deflector two (313) on bottom plate (311), deflector (312) are installed on bottom plate (311) through the deflector mount pad, deflector two (313) are connected with guide cylinder (314) to fix on bottom plate (311) through the guide cylinder mount pad.

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